ASP Catalogue 2018 Web

ASP Access Floors Catalogue
2018
Contents
CONTENTS
Section Page
01 01 Introduction
02 06 System Selection Guide
03 09 Testing and Frequently Asked Questions
04 21 Case Studies
05 27 SC Ultra Fix System
06 33 SC Air Tight System
07 39 SC Rigid Grid System
08 45 SC HPL / Vinyl System
09 53 Steel Wrapped Wood Core System
10 59 Steel Wrapped Calcium Sulphate System
11 65 Calcium Sulphate Interlock System
12 69 Concept + Innovations Range
13 71 Accessories
14 79 Grommets
15 83 Architectural Details
01
Introduction
Company Overview
1
01
Board of Directors & Corporate Structure
ASP Managing Director
Petar Zlatar
Project Management Team Tendering Team
Director Director
Tony Zlatar Scott Zlatar
Product &
Quality Manager Senior Project Site
Marketing Estimating Sales
Coordinator Supervisors
Scott Zlatar
Installation
Tradesmen
2
01
Introduction
ASP Access Floors are a leading global company in the access flooring industry, revolutionising access flooring systems
and installation. ASP specializes in the manufacture, distribution and installation of access flooring solutions across
Australia, New Zealand, the United Kingdom, Europe, Asia and the Middle East.
With over 20 years experience, ASP has developed and patented multiple unique access floor designs which have been
used in some of the most iconic projects around the world. Ongoing research and development allows ASP to produce
innovative solutions that offer the market quality, versatility and infinite support.
The Idea
Traditionally access flooring was primarily used for computer floors, but today this has expanded to a number of
applications including commercial, government, education and data centres. The flexibility of using an access floor
system has created
a perfect solution for many owners, developers, builders, designers, architects and facility managers.
An access floor provides a controlled cavity in-between the slab and finished floor level where all data, power, hydraulic
and fire services can be distributed. The modular design of the access floor allows flexibility to alter a building’s service
layout to accommodate changing technological and space driven operations.
The Benefits
ASP provides businesses and developers the perfect balance between optimum design and functionality.
1. Ease of Reconfiguration
2. Reduced costs and ease of maintenance
3. Fast efficient installation which meets the project time line
4. Occupant comfort
The ASP Product Range

The ASP catalogue of products includes a large number of complete systems and accessories that cater to all project types.
The catalogue is a comprehensive guide to the patented SNA series, complete with system assemblies, architectural
details and technical information to help design the perfect floor for each application.
Expression of Interest
ASP Access Floors takes pride in client relationships and are interested in tendering on projects in the following
industry sectors:
• Offices
• Data Centres
• Libraries  
• Learning Institutions
• Casinos
• Defence/Government Applications
• Control Switch and Communications Room
3
01
Sustainability Policy
The ASP Access Floors Sustainability Policy outlines how

ASP endeavours to use recycled materials and reduce
greenhouse gas and carbon emissions.
The implementation of the Sustainability will ensure ASP:

• Considers sustainability in all relevant decision making
• Reduce their greenhouse gas emissions
• Produce less waste and increase recycling
• Monitor and reduce carbon emissions
The aim of this policy is to incorporate ecologically

sustainable development principles in every facet of
design, manufacturing, logistics and installation with the
introduction of the following key objectives:
1. Indoor Environment Quality
2. Waste Management
3. Recycled Content
4. Carbon Offsets
5. Life Cycle Analysis and Environmental
Product Declaration
Project: Commonwealth Bank Darling Harbour
Section 1: Indoor Environment Quality
Objective: ASP ensures that our VOC content on our pedestal adhesive and concrete slab sealer is in line with
the Green Building Council Requirements.
Solution: All ASP adhesives are water based and so are non toxic. The Green Building Council requirement is not
more that 50g/kg VOC for sealants and adhesives. The ASP test data concludes that the nominated
pedestal glue and concrete sealer are both under the recommended 50g/kg. Please find VOC data
sheets attached at rear of policy.
Section 2: Waste Management
Objective: ASP Access Floors aims to minimise the waste material produced on each project.
Solution: ASP Access Floors offers their waste minimisation perimeter floor installation system. This system maximises
the usable amount of cut panels around the perimeter hence minimising the waste material.
Section 3: Recycled Content
Objective: ASP Access Floors aims to produce access floor panels with a high percentage of recycled material.
Solution: The recycled content data sheet can be found attached to the rear of the sustainability policy.
Section 4: Carbon Offsets
Objective: Measure the carbon footprint of both the ASP product and the organization.
Solution: ASP enlisted the services of a sustainability consultant and put a plan into action to measure the
carbon footprint of Steel Cementitious Ultrafix System.
To apply sustainability more broadly than just the ASP product ASP also measured and had audited
their organisational footprint.
This involved:
• measuring the company-wide carbon footprint,  
• developing and implementing a carbon reduction strategy, and  
• seeing how effective it is.  
An annual independent audit ensures that ASP accurately tracks its footprint and makes real change.
4
01
Sustainability Policy Continued
Section 5: Life Cycle Analysis and Environmental Product Declaration
Objective: To conduct LCA study, compile an EPD and obtain verification
Solution: In life cycle assessment, an Environmental Product Declaration (EPD) is a standardized way of
quantifying the environmental impact of a product or system.
Step 1. ASP conduct an LCA according to ISO 14 040-44 standards.
Step 2. Develop the EPD
• Develop EPD document including LCA results and the product description
• Develop a Project Verification Report (PVR)
Step 3. Verification and registration.
A third party expert verifies:
• The EPD document
• The PVR
• The LCA study
• And files a Verification Report
Registration with the EPD programme operator
• T he EPD document, the Verification Report, the registration form and a short description of
ASP Access Floors is filed and signed off by the EPD programme operator
5 Project: ANZ Head Office Docklands

02
System Selection Guide
6
02
System Selection Guide
WHAT IS YOUR
APPLICATION?
OFFICE, CASINO, DATA CENTRE,

LEARNING INSTITUTION OR COMPUTER ROOMS
OTHER COMMERCIAL SPACE OR SWITCH ROOMS
IS THE UNDERFLOOR SPACE

BEING USED AS A PLENUM?
YES NO
IS THE FLOOR FINISH IS THE FLOOR FINISH

SPECIFIED TILES OR STONE? SPECIFIED TILES OR STONE?
YES NO YES NO
IS IT FACTORY APPLIED UNDER OVER

OR SITE APPLIED? 800MM? 800MM?
FACTORY SITE
CALCIUM STEEL CALCIUM STEEL

CONCEPT + STEEL
SULPHATE CEMENTITIOUS SULPHATE CEMENTITIOUS RIGID GRID
INNOVATIONS CEMENTITIOUS
INTERLOCK AIR TIGHT INTERLOCK ULTRAFIX SYSTEM
RANGE HPL SYSTEM
SYSTEM SYSTEM SYSTEM SYSTEM
7
8
03
Testing and Frequently

Asked Questions
9
Project: Brisbane Supreme Courts
10
1) What will the floor be used for? i.e. data/power/plenum
2) What is the environment and purpose of the building? i.e. general office are
gaming area, education facility etc
3) What equipment if any will be placed or rolled onto the floor on a routine b
i.e. racks, safes, cabinets etc
4) Are there any foreseeable changes, that will alter the concept of the
original floors? i.e. a small computer room being changed into a heavy dut
equipment data room
Understanding the Specifications

Once these questions have been resolved, we may then select the loading grade of the panel. But in o
to understand the different load tolerances, we must define what loads the access floor and pedestals
will incur.
Before we can design the layout and functionality of an access floor we must first determine the load capacity and
tolerance. To do this we must ask: 03
1. What will the floor be used for? i.e.Concentrated
data/power/plenumLoad
2. What is the environment and purpose of the building? i.e. general office area, gaming area, education facility etc
3. What equipment if any will be placed or rolled deflection
The maximum onto the floor
and on a routineset
permanent basis?
of ani.e. racks,
access safes,
floor cabinets
panel etc When testing for a pa
under load.
concentrated
4. Are there any foreseeable changes, load,
that will alter thea concept
25 x 25mm
of load is applied
the original onto i.e.
floors?
2
the a
surface of the panel
small computer at its weakest point. The
room
deflection and permanent set is measured by recording the indentor movement.
being changed into a heavy duty equipment data room
In a typical office building scenario, concentrated loads are typically imposed by stationary furniture an
Once these questions have been resolved, we may
equipment then
with select the loading grade of the panel. But in order to
legs.
understand the different load tolerances, we must define what loads the access floor and pedestals will incur.
Concentrated Load
The maximum deflection and permanent set of an
access floor panel under load. When testing for a
panel’s concentrated load, a 25 x 25mm load is
applied onto the surface of the panel at its weakest
point. The panel deflection and permanent set is
Ultimate
measured by recording the indentor movement. Load
Ultimate Load
In a typical office building scenario, concentrated
The Maximum
loads are typically imposed by stationary load
furniture applied
The Maximum
and onto
load theonto
applied panel without
the panel without failure. When
failure. When testingtesting forultimate
for a panel’s a panel’s
load, aultimate load, a
concentrated 25 x 25mm load is applied onto the surface of the access floor panel and this load is increased
2
concentrated 25untilx 25mm

the panel load is applied onto the surface of the access floor panel and this load is increased
2
fails structurally.
equipment with legs. until the panel fails structurally.
This is sometimes expressed as a multiple of concentrated load and referred to as a safety factor. A minimum
safety factor of two is recommended.
This is sometimes expressed as a multiple of concentrated load and referred to as a safety factor. A minimum
safety factor of two is recommended.
Ultimate Load
The Maximum load applied onto the panel without
failure. When testing for a panel’s ultimate load, a
concentrated 25 x 25mm load is applied onto the
surface of the access floor panel and this load is
increased until the panel fails structurally.
This is sometimes expressed as a multiple of

concentrated load and referred to as a safety factor.
A minimum safety factor of two is recommended.
Rolling Load
The durability and/or deformation of an access floor system when exposed to commercially anticipated caster
traffic using a specific load. Rolling loads are defined by the number of passes, size and hardness of the wheel,
and the combined weight of the cart and its contents on each wheel.
These loads are typically imposed by equipment on wheels across the access floor.
Rolling Load
The durability and/or deformation of an access floor
system when exposed to commercially anticipated
caster traffic using a specific load.Rolling Load
Rolling loads are
defined by the number of passes, size and hardness of
the wheel, and the combined weight of the cart and
its contents on each wheel. The durability and/or deformation of an access floor system when exposed to commercially anticipated cast
traffic using a specific load. Rolling loads are defined by the number of passes, size and hardness of the whee
and
These loads are typically imposed by the combined
equipment on weight of the cart and its contents on each wheel.
wheels across the access floor.
These loads are typically imposed by equipment on wheels across the access floor.
11
Uniform Load
Uniform load is static force equally applied over the entire area of the panel and is typically imposed by
stationary furniture and equipment without legs. The uniform load rating is specified in Newton’s per
square metre.
2
Supporting Heavy Loads
Understanding the Specifications (cont...)
formation of an access floor panel and understructure, when subjected to heavy loads
In situations where heavy loads need to be supported, it is important that all information relating to that
he access floor system. ThisLoad
Impact is to test the maximum load that can be ‘accidently’ dropped
equipment is considered before any decision is made, regarding the suitability of a specific raised floor system
damage 03to the system.
The effects and/or deformation of an access floor panel and understructure, when subjected to heavy loads being
In some circumstances, it will be sufficient to use a panel with a higher load rating to accomodate for the extra
dropped onto the access floor system.
load. However, This is
there areto test the maximum load that can be ‘accidentally’ dropped onto
alternatives.
the floor without damage to the system.
1) Additional pedestals can be introduced in high load or high activity areas, as
illustrated below:
Uniform Load
orce equally applied overload
Uniform the entire
is staticarea
forceofequally
the panel andover
applied is typically imposed
the entire area ofby
the panel and is typically imposed by stationary
d equipment without legs. The uniform load rating is specified in Newton’s per
furniture and equipment without legs. The uniform load rating is specified in Newton’s per square metre.
Supporting Heavy Loads

avy Loads In situations where heavy loads need to be supported,
it is important that all information relating to that equipment is considered before any decision is made, regarding the
suitability of a specific raised floor system.
avy loads need to be supported, it is important that all information relating to that
In some circumstances, it will be sufficient to use a panel with a higher load rating to accommodate for the extra load.
ed before any decision is made, regarding the suitability of a specific raised floor system.
However, there are alternatives.
s, it will be sufficient to use a panel with a higher load rating to accomodate for the extra
are alternatives.
1. A
dditional pedestals can be introduced in high load 2. Spreader plates can also be used in order to distribute
or high activity areas, as illustrated.
Additional pedestals can be introduced in high load theasload evenly across a greater area. Spreader plates
2) or high activity areas,
Spreader plates can
are also be
generally used in order
constructed tolarge
using distribute
sheetsthe load evenly across a
of 25mm
illustrated below: greater area. Spreader plates are generally constructed using large sheets of
thick plywood.
25mm thick plywood.
Spreader plates can also be used in order to distribute the load evenly across a
greater area. Spreader plates are generally constructed using large sheets of
25mm thick plywood.
12
The understructure of the access floor system is the major supporting element. As a result, careful attention needs
to be paid to the type of understructure you specify for your project.
Loads that are
to be paid to type
to the be considered in Understructure
of understructure you specifySupport are:
for your project.
Loads that are to be considered in Understructure Support are:
Overturning Movement
to be paid to
The understructure of the
thetype of understructure
access floor system isyou
thespecify
majorfor your project.
supporting element. As a result, careful attention needs to be
paid to the type of understructure you specify for your project.
03
Is a lateral load applied to the pedestal due to:
1. Rolling load traffic
2. Underfloor work due to cable installations
The pedestals ability to resist overturning movement is determined by:

1. Its attachment method to the structural slab
2. Size and thickness of the base plate
3. Pedestal tube size Axial Load
Axial Load
Axial Load
Axial Load
Is a vertical load applied to the centre of the pedestal due to
concentrated, rolling, uniform and other loads applied to the
surface of the access floor panel.
Seismic Load
Seismic Load
Seismic Load
Seismic Load
Is a combination of vertical and lateral movement, usually in the
form of earthquakes. When designing an access floor in a location
with high seismic activity, it is critical to have a firm understanding
of the seismic requirements of the access floor and understructure
from the onset, to avoid replanning or re-installation of an
appropriate system to cater for those needs.
13
AUSTRALIAN AND INTERNATIONAL STANDARD TESTS:
The Australian Standard and International Standard tests that the access floor is manufactured to comply with are
03 as follows:
1. AS4154-1993 - General Access Floors (elevated floors)
2. AS4155.0-1993 - Test Methods for General Access Floors Part 0: Introduction and list of methods
3. AS4155.1-1993 - Test for concavity and convexity
4. AS4155.2-1993 - Test for twist
5. AS4155.3-1993 - Test for panel squareness
6. AS4155.4-1993 - Test for the effect of temperature
7. AS4155.5-1993 - Test for the effect of humidity
8. AS4155.6-1993 - Test for floor resistance and electrostatic control
9. AS4155.7-1993 - Test for 300mmx300mm concentrated load
10. AS4155.8-1993 - Test for 25mmx25mm concentrated load
11. AS4155.9-1993 - Test for ultimate load test (safety factor tests for concentrated load)
12. AS4155.10-1993 - Test for dynamic soft body impact load
13. AS4155.11-1993 - Test for dynamic rolling loads with the tread made from resinous polymer
14. AS4155.12-1993 - Test for pedestal strength by concentrated vertical load
15. AS4155.13-1993 - Test for pedestal free movement by horizontal load
16. AS4155.14-1993 - Test for pedestal strength by horizontal movement
17. AS1170.0-2002 - Structural Design Actions: General Principles
18. AS1170.1-2002 - Structural Design Actions: Permanent, imposed and other actions.
19. AS1170.4-2002 - Structural Design Actions: Earthquake Actions in Australia
20. ISO9239-1-2003 - Reaction to fire tests for flooring: Determination of the burning behaviour using a radiant heat source
21. EN12825-2001 - Reaction to Fire Classification A1
22. DIN 4102-1-1998 - Fire Behaviour of Building Materials and Elements
ASP is also compliant with CISCA, PSA and DIN Standards.
14
03
15
Frequently Asked Questions
How are panels attached to the understructure?

03
How are panelsASP access
attached floor
to the panels are
understructure? either: How do I determine the right panel for my project?
1. Screw Fixed 2. Gravity Fixed When designing the access floor component for your proj
ASP access floor panels are either:
Screw Fixed Panels are assembled onto an ultrafix or a Gravity Fixed Panels are assembled onto a Rigid Grid 1) system
Where will the access floor be
1) Screw Fixed 2) What will be placed on the ac
Rigid Grid system. Panels are screwed into the pedestal with a HPL, vinyl, rubber or timber finish. Panels are3)supported
What are the loads that will b
as well as the loads placed on
heads
Screw Fixed Panels in all four
are assembled ontocorners. on all four sides by a stringer.
an ultrafix or a Rigid Grid system. Panels are screwed into the
pedestal heads in all four corners. Analysing and determining the required properties of the
performance, resistance, air leakage requirements, acou
help ensure that the correct panel type, load grade and
How do I determine the right panel for my project?
How can we be assured that our floor will be level if

When designing the access floor component for your project, it is important to answer the following:
When an ASP Access Floor is installed, our installers use lase
1) Where will the access floor be located? level at the required FFH, regardless of undulations in the s
our installers can raise and lower the panel in order to obt
Ultra Fix2)System What will be placed on the access floor?
Ultra Fix System 3) What are the loads that will be placed on the access floor during construction
as well as the loads placed on the floor during occupancy?
2) Gravity Fixed
Analysing and determining the required properties of the access floor in terms of their structural
performance, resistance, air leakage requirements, acoustic performance, etc in these early stages will
How do you support small panel cuts when the floo
help
Gravity Fixed Panels are assembled onto a Rigid Grid ensure
system thatvinyl,
with a HPL, therubber
correct panel
or timber type, load grade and understructure system
finish. isRigid
applied
supporting GridtoSystem
column? your project.
Panels are supported on all four sides by a stringer.
ASP has developed 300mm and 800mm finshing panels to

to eliminate smaller cuts. When an access floor meets an
and size with supplementary support pedestals used to im
How do I determine the right panel for my project?
800mm panel
How
When designing the access can
floor we be assured
component that
for your our floor
project, will be level
it is important if the subfloor
to answer is uneven?
the following:
1. Where will the access floor be located? 300mm panel
2. What will be placedWhen

on the
an access floor?
ASP Access Floor is installed, our installers use laser levels to ensure that the surface of the floor is
3. What are the loadslevel
that at
willthe
berequired
placed FFH, regardless
on the accessof undulations
floor in the sub floor.
during construction Usingas
as well the height
the loadsadjustable
placed on pedestals,
the
our installers can raise and lower the panel in order to obtain a level finish.
floor during occupancy?
Analysing and determining the required properties of the access floor in terms of their structural performance, resistance,
air leakage requirements, acoustic performance, etc in these early stages will help ensure that the correct panel type,
load grade and understructure system is applied to your project.
How can we be assured How

that
Rigid Grid dofloor
our
System youwill
support small
be level panel
if the cutsiswhen
subfloor the floor meets a perimeter or
uneven?
supporting column?
When an ASP Access Floor is installed, our installers use laser levels to ensure that the surface of the floor is level at the
required FFH, regardless of undulations in the sub floor. Using the height adjustable pedestals, our installers can raise and
lower the panel in order toASP has developed 300mm and 800mm finshing panels to meet the desired lengths at a perimeter, in order
obtain a level finish.
to eliminate smaller cuts. When an access floor meets an unusual shape or structure, panels are cut to shape
and size with supplementary support pedestals used to improve strength.
300mm panel
How do you support small panel cuts when the floor
800mm panel
meets a perimeter or supporting column?
ASP has developed 300mm and 800mm finishing panels

to meet the desired lengths at a perimeter, in order to 300mm panel
eliminate smaller cuts. When an access floor meets an
unusual shape or structure, panels are cut to shape
and size with supplementary support pedestals used to
improve strength.
16
What finishes are available for my access floor?
03
Factory applied finishes: Site applied finishes by others:
1. Anti-static high pressure laminate 1. Carpet
2. Anti-static Vinyl 2. Sheet Vinyl
3. Vinyl and Marmoleum 3. Stone
4. Timber 4. Tiles
5. Stone 5. Timber
6. Ceramic Tiles
What is the acoustic rating of an access floor?
ASP Access floors have been tested in accordance with AS/NZ ISO 717.1:2004 : Rating of sound insulation in buildings and
of building elements - Airborne Sound Insulation; and AS/NZ ISO 717.2:2004 : Rating of sound insulation in buildings and of
building elements - Impact Sound Insulation.
AS/NZ ISO 717.1:2004 - Airborne Sound Insulation AS/NZ ISO 717.2.2004 - Impact Sound Insulation
Freq (Hz) Panel dB achieved Freq (Hz) Panel dB achieved

100 34.4 dB 100 -0.3 dB
5000 56.1 dB 5000 49.5

Test Average 51 dB Test Average 25 dB
What are the advantages in regards to services if I use an access floor?
Ventilation as well as power/data is capable of being installed under floor, with outlets fitted in the access floor panel.
There are many advantages with running these services under floor such as:
1. Ease of service and accessibility.
2. Simple to rearrange services.
3. Air conditioning achieved through displacement as opposed to dilution.
4. More cost effective during installation and servicing.
What are zinc whiskers and will I ever have an issue with them if I have an ASP Access Floor?
Zinc whiskers are tiny conductive filaments of zinc typically less than a few mm long and a thousandth of a millimeter in
diameter. They grow from metal surfaces that have been electroplated/galvanised with zinc for corrosion protection.
Zinc whiskers are conductive and therefore will cause electrical shorts if they manage to bridge across tightly spaced
electrical conductors.
ASP products are coated with a finish which is resistant to the growth of zinc whiskers. For specialised sensitive areas such
as clean rooms and data centres, ASP has introduced nickel chrome platted pedestal heads, threaded rod and nuts,
which are available upon specification.
What are the earthing capabilities of the access floor?
By connecting a grounding wire to the pedestal head, an access floor can be grounded. However, the frequency of
these grounding wires varies depending on understructure and panel type. These calculations should be carried out by
an electrical engineer and installed by an electrician.
17
Frequently Asked Questions (cont...)
What is the fire rating of an access floor?

03
The ASP Accessories Floor System is tested to DIN4102-1-1998. ASP access floors are tested to AS ISO 9239: reaction to fire test
for flooring.
What is the process of installation for an access floor?
When installing an access floor much planning and a thorough understanding of the building site is required. Installing an
access floor requires the co-operation of the head contractor, access floor installer and other associated trades to make
sure that all work runs smoothly and on schedule.
To ensure that the access floor works are installed to your programs requirements the following guide line should be
adopted:
1. Planning how the access floor materials will be loaded onto the working zones; i.e. goods lift, crane, builders hoist etc
2. Planning a material path from the truck to the access floor area, it is recommended that there should be a free path
from an elevator and/or hoists to the area receiving the access floor material
3. A dry and secure storage area should be made available to store access floor materials. It is desired that the storage
area be unaffected by weather
4. Co-ordinate a work schedule with other working trades. All overhead works should be completed prior to the access
floor installation. If overhead works are installed after access floor works, the access floor must be adequately
protected to prevent damage, a minimum of 25mm thick plywood is recommended to be placed on top of the
access floor
5. Working area is to be swept clean, mark the set out points and then sealed with approved ASP floor sealer
6. For high service traffic areas a set out can be incorporated to ensure that the service trades work according to the
access floor grid
7. Service trades and access floor installers work in conjunction with each other
8. Floor signed off by head contractor
18
03
‘‘
ASP has achieved
Carbon Zero
‘‘
Certification on
our Steel
Cementitious
Ultrafix System
19
20
04
Case Studies
21
SHOWCASE PROJECT
Barangaroo International Towers
Builder Lend Lease

Purpose and Size 300,000m2 across 3 towers
Project Scope/Specification Access Floor System Used
Lend Lease’s International Towers will stand at the entrance to Steel Cementitious Ultra Fix System with a 3.0kN loading at 150mm FFH
the Barangaroo Commercial Precinct. Comprising 300,000 m2 Product Code: SC-3.0-UF
of general office use ASP Steel Cementitious Ultra Fix and High The SNA Series SC-3.0-UF is a Medium Grade Access Floor System
04 Pressure Laminate Rigid Grid systems, the three International that has been designed for general office applications, and is
Towers will showcase the latest in innovative and sustainable widely used for power and data cable management.
design. Barangaroo will be the largest access flooring project ever
Steel Cementitious HPL Rigid Grid System with a 4.5kN loading
undertaken in Australia.
at 150mm FFH
ASP Access Floors received CarboNZero and CEMARS Product Code: SC-4.5-RG-HPL
Certification in response to the work they have undertaken with The SNA Series SC-4.5-RG-HPL is a Heavy Grade access floor system
regards to Barangaroo and its environmental requirements. The that has been designed for Computer/Data Centre environments,
designs for the International Towers Sydney were to achieve or similar, and can be used for mapping and distributing cabling,
a minimum 5 Star NABERS Energy rating and 6 Star Green Star data and other electrical services in the sub floor.
Office Design and As Built (V3) Rating. ASP are committed to
Steel Cementitious HPL Rigid Grid System with a 6.0kN loading
working with the Green Building Council of Australia through our
at 150 mm FFH
production of products with low VOC content and high recycled
Product Code: SC-6.0-RG-HPL
material content.
The SNA Series SC-6.0-RG-HPL is an Extra Heavy Grade access
Project Features and Highlights floor system that has been designed for Computer/ Data Centre
The ASP Ultrafix System has inbuilt patented design features which environments, or similar, and can be used for mapping and
allow faster installation and greater adaptability with a 150 mm high distributing cabling, data and other electrical services in the sub floor
access floor. This system allows easy reconfiguration of work areas in
Calcium Sulphate Interlock System at 150mm FFH
fit-outs along with greater flexibility and connectivity.
Product Code: CS-IL
The SNA Series CS-IL is an access floor system that has been designed
for applications where stone or tile finishes are to be applied.
22
Our Project Showcase
Project Scope/Specification
1 Bligh Street Sydney
1 Bligh Street Sydney is a modern high rise office tower achieving
Client Dexus the 6 star Green Star accreditation rating. Its circular external
shape along with its unusual curved atrium provided ASP Access
Builder Grocon
Purpose and Size Commercial: 40,000m²
Floors with a challenging but rewarding project. Multiple floor
04
finishes throughout the building added to the complexity of the
Project Duration 12 Months access flooring.
Access Floor System Used
Steel Cementitious Ultrafix stringerless system with a 4.5kN loading

at 150mm FFH
Product Code SC-4.5-UF
Steel Cementitious HPL Rigid Grid System with a 4.5kN loading at
150mm FFH in switch rooms
Product Code SC-4.5-RG-HPL
Project Features and Highlights
Various floor finishes such as tiling, timber, vinyl and carpet were used
which dictated multiple different set-downs in the access flooring.
In order to marry the floor against the curved facade of the

building, our specially designed 800 x 600mm sized panels were
used to achieve the vastness of the curve.
Due to the building’s 6 star rating, strict guidelines were placed

on the percentage of recycled steel. ASP’s access flooring
successfully provided data confirming that our product is made
up of up to 50% recycled steel.
ANZ Centre - 833 Collins Street Melbourne
The ANZ project required an Air Tight access floor system with smoke
Client ANZ and zone baffling. Due to the design of the mechanical units, the
specification required each zone to be tested to comply with a
Builder Bovis Lend Lease
controlled air leakage rate of 0.7277l/s.m² without floor coverings.
Purpose and Size Commercial: 83,550m²
Project Duration 12 Months
Steel Cementitious Ultra fix stringerless system with a
4.5kN loading.
Product Code SC-4.5-UF-AT
A controlled leakage rate was achieved. Each zone was tested

and complied with an air leakage rate of:
1. 0.7277l/s.m² without floor coverings.
2. 0.1386l/s.m² with floor coverings.
The large floor plate, of up to and over 10,000m², would have proved
to be a challenge in terms of expansion and creep if it was not for
our specially designed and patented pedestal head and panel.
The panel has a special expansion cut out, and the pedestal head
is fitted with an expansion gasket designed to keep the panels
separated by 0.3mm at all times. This eliminates the panels clicking or
rubbing up against each other during expansion. The use of bridging
stringers for services ensured penetrations in the ductwork were kept
to a minimum. ASP staff coordinated with other services to ensure
penetrations were correctly located and properly sealed.
23
Our Project Showcase
Brisbane Supreme Courts
The Brisbane Supreme Courts are a unique legal precinct and one of
Client D
epartment of Justice and the the largest court buildings in Australia with over 60,000 square metres
of floor space spread over 19 floors. The concept of a “comfortable
Attorney General
04 Builder Lend Lease
and healthy building” working with natural light and under floor
air was designed to provide occupants maximum comfort. The
Purpose and Size Commercial: 25,000m² Access Floor housed the air plenum and was finished in the specified
Project Duration 18 Months specialty timber due to the complexity and highly specified project
in which we aimed to achieve outstanding results.
Steel Cementitious Rigid Grid System prefinished in specialty
timber with a 6.6kN loading at 800-850mm FFH
Product Code SC-64-6.6-RG
For this project, ASP used a specialty timber which was applied
to the surface of the access floor panels. The access floors that
were designed, manufactured and installed for every level of the
project are so state of the art that ASP Access Floors invented
twenty-two new products to be able to provide the combination
of function, load bearing and aesthetics required in the project.
The access floors made the design goal of the exposed concrete
ceilings possible; enabling all the services, data, communications,
and HVAC systems to run underneath the floor.
Equinix Data Centre
The Equinix Data Centre, once all stages are complete, will be
Client Equinix a large project in the technology and telecommunications
world. A thorough understanding of data centre equipment and
Builder John Holland Group
functionality will be required in order to deliver a successful access
Purpose and Size Data Centre: 4,000m² floor. The tenses change several times – keep them the same.
Project Duration 6 Months Common issues including high rolling load areas, zinc whisker
elimination, and air and duct requirements were all addressed
in this project.
Steel Cementitious HPL Rigid Grid system 4.5Kn Heavy Grade and
6.6kN Industrial Grade loading at 1500mm FFH
Product Code SC-4.5-RG-HPL and SC-6.6-RG-HPL
The corridors in this project were classed as high rolling load areas
and so our 6.6kN Industrial Grade access floor panels were used.
ASP Access Floors specially designed bridging stringers were used in
corridors to span a width of 1.8m unsupported and carrying a panel
load of 6.6kN. The bridging was re-engineered and project specific
so that it could be incorporated into our flooring system.
All under structure components were finished with a hot dipped
galvanized finish eliminating the problem of zinc whiskers which are
commonly found in data centres. Other ASP accessories such as air
grilles along with factory and site cut outs were used in this project.
24
Medibank - 720 Bourke Street
720 Bourke Street is a unique development comprising of 16
Client M
edibank Limited levels of A-Grade office accommodation with Premium Grade
Services. A true workplace evolution, with the building designed
Builder Brookfield Multiplex
Purpose and Size Base Build Office Fit Out: 45,800m²
to optimize the health of its tenants. Being able to incorporate 04
under floor air-conditioning in the space was an important
Project Duration 6 Months component of this Green Star project, as it amplifies occupant
comfort whilst reducing the systems energy consumption.
Steel Cementitious Air Tight System with a 3.0kN Medium Grade
Loading throughout office floors.
Calcium Sulphate Interlock system through lift lobbies and all
other stone and vinyl areas.
Product Code SC-3.0-AT and CS-IL
The specification called for an under floor air distribution system where
each completed zone was to be tested to ensure compliance with
specific air leakage rates as set out in the BSRIA guide. The ASP Access
Floors Air Tight System complete with its clip on air tight stringer and
accessories, including baffling and bridging stringers, guaranteed
that the flooring system achieved the required air leakage rates.
ASP achieved independent testing and certification of the systems
compliance with BSRIA.
Various floor finishes such as tiling, timber, vinyl and carpet were used
which dictated multiple different set-downs in the access flooring as
well as the use of two different systems adjacent to each other in order
to achieve the best result for the client.
University of Technology
The University of Technology’s Information, Technology and
Client U
niversity of Technology Engineering Building has been designed to create an open
learning environment for students. ASP Access Floors worked in
Builder Lend Lease
conjunction with builder Lend Lease and architect Denton Corker
Purpose and Size University: 22,300m² Marshall to provide a superior raised access flooring solution across
Project Duration 2 Years the general office, learning and breakout areas. The access
flooring spans approximately 22,500m2 over 14 levels. It creates a
solution that allows the university maximum flexibility with a readily
accessible underfloor space to run electrical, mechanical and
communications cabling.
Steel Cementitious Ultra Fix Air Tight System with a 4.5kN loading.
Product Code SC-4.5-AT
The specification called for an under floor air distribution system
where each zone completed was to be tested to comply with
specific air leakage rates.
25
26
05
System Overview
Steel Cementitious Panel
Ultrafix System
27
Load Tolerances - For 600 x 600 standard panels and specialised finishing panels
Medium Grade Panel SC 3.0kN

The medium grade panel is the first panel in the Australian Standards and is suitable for general office areas and
educational centres where heavy equipment is not used.
05
Heavy Grade Panel SC 4.5kN

Suitable for office areas where heavy equipment is being used such as compactus zones, printer zones,
communication rooms and server rooms. Also recommended for high traffic areas such as lift lobbies and corridors.
Extra Heavy Grade SC 6.0kN

Suitable for data centres and other areas of heavy traffic and more regular rolling loads.
Industrial Grade SC 9.0kN (CISCA Standard)

Recommended for areas of frequent heavy rolling loads such as casinos and data centre corridors.
All ASP products are thoroughly tested to standard and certified by qualified engineers.
If you require further information on ASP testing or specifications please contact (02) 9620 9915 or visit www.aspfloors.com.au
28
Steel Cementitious Panel - SC Ultra Fix System Overview
The SC Ultra fix panel is the most specified panel which is regarded as the standard system for general
office like applications. This is a stringer less system where the panels are screw fixed onto the pedestal heads.
This system is widely used for power and data cable management, and also for applications where there is
a need for an under floor baffle/plenum or air highway.
Steel Cementitious Panel - SC Ultra Fix System
System Applications:
General Offices
Banks
Learning
The SC Ultra fix panel is the most specified panel which isInstitution
regarded as the standard system for general office like applications.
Libraries
This is a stringer less system where the panels are screw fixed onto the pedestal heads.
Casinos
This system is widely used for power and data cable management, and also for applications where there is a need for
an under floor baffle/plenum or air highway.
• General Offices
• Banks
• Learning Institution
• Libraries 05
• Casinos
Design Features
Design Features
Steel Encased
Steel encasing to provide a more a robust product with no limitations to application or environmental
surroundings.
Steel Encased
4 Corner Screw Panel
surroundings.
Design Features Screw hole in each corner to allow panels to be individually screw fixed providing greater rigidity as well as
Screw hole in each corner to allow panels to be individually screw fixed providing greater rigidity as well as
easier and faster access.
In-built Expansion Joint and Cut Out

The panel has a special expansion cut out,
and the pedestal head is fitted with an expansion gasket
designed to keep the panels separated by 0.3mm at all times.
This eliminates panel to panel contact noise.

Screw holes in each corner to allow panels to be Finishing Panels:
invdividually screw fixed providing greater rigidity Full bearing 600 x 300mm and 600 x 800mm panels designed to minimise small off cuts experienced
with cutting around columns and finishing off to the perimeter.
as well as easier and faster access. 4 Corner Screw Panel
The 600 x 300mm panel may also be used when there is a necessity for a 300 x 600mm air grille.
Finishing Panels
Full bearing 600 x 300mm and 600 x 800mm
Finishing Panels:
panels designed to minimise small off cuts
experienced with cutting around columnsFull bearing 600 x 300mm and 600 x 800mm panels designed to minimise small off cuts experienced
and finishing off to the perimeter. with cutting around columns and finishing off to the perimeter.
The 600 x 300mm panel may also be used The when

600 x 300mm panel may also be used when there is a necessity for a 300 x 600mm air grille.
there is a necessity for a 300 x 600mm air grille.
Finishing Panels
29
Steel Cementitious Ultra Fix S1/S2 System : SC-UF-PT S1/2
50-110mm FFH

System Understructure
The SC-S1/2 Ultra Fix system has been designed for those low profile applications with a FFH 50-100mm.
The pedestal height is adjusted by turning the steel thread rod up or down to the desired height.
110-180mm FFH
This system is recommended for: The SC S3/4 Ultra Fix system has been designed for low profile applications with a FFH 110-180mm.
1. Mapping and distributing data and electrical
services in the sub floor The pedestal height is adjusted by screwing the specialised shaft up or down to the desired height.
2. Leveling out/building up to uneven slabs to create a
Steel Cementitious Ultra Fix S1/S2 System Steel Cementitious Ultra Fix S3/S4 System
consistent level finish This system is recommended for:
1. Mapping and distributing data and
electrical services in the sub floor.
SC-UF S1/2 50-110mm FFH SC-UF S3/4 110-180mm FFH

System Assembly:
System Assembly:
05
The SC-S1/2 Ultra Fix system has been designed for The SC S3/4 Ultra Fix system has been designed for low
those low profile applications with a FFH 50-100mm. profile applications with a FFH 110-180mm.
The pedestal height is adjusted by turning the steel The pedestal height is adjusted by screwing the
thread rod up or down to the desired height. specialised
180-1200mm FFH shaft up or down to the desired height.
Understructure Understructure
The SC S5/6 Ultra Fix system has been designed for applications with a FFH 180-1200mm.
• S1 Field Pedestal • S3 Field Pedestal
The pedestal tubes are manufactured or cut down to the appropriate length, and the steel
• S2 Perimeter Pedestal • S4 and
thread rod is adjusted Perimeter Pedestal
locked at the desired height.
This system is recommended for:
1. Applications where most of the building’s major

services will be housed underneath the access floor.
2. Applications where the sub floor will be used as a
plenum to distribute cooling and heating throughout
the building.
Steel Cementitious Ultra Fix S5/S6 System
SC-UF S5/6 180-800mm FFH System Assembly:
The SC S5/6 Ultra Fix system has been designed for

applications with a FFH 180-1200mm.
The pedestal tubes are manufactured or cut down

to the appropriate length, and the steel thread rod is
adjusted and locked at the desired height.
Understructure
• S5 Field Pedestal
• S6 Perimeter Pedestal
For heights over 800mm it is recommended to use the Rigid Grid System
30
Understructure
S5 Field Pedestal
Field Pedestal
1. Inbuilt Expansion joint gasket
1. Inbuilt Expansion joint
Thisgasket
patented inbuilt expansion joint gasket detail
This patented inbuiltensures
expansion joint
that the gasket
panels detail
are held 0.3mm ensures
apart
that the panels are held 0.3mm apart
2.
Understructure
Pedestal Head
Pedestal head is die formed aluminium to form a solid
2. Pedestal Head
support to mount the access floor to
Pedestal Head is die formed aluminium to form a solid
support to mount
3. the access
Clip
S5 Field floor to
on AT stringer
Pedestal cavity 8
Cavity for AT stringer attachment
3. Clip on AT stringer
1. cavity
Inbuilt Expansion joint gasket
This patented
Cavity for AT4. stringerScrew Fix Locatorinbuilt expansion joint gasket detail
attachment
Theensures
panel isthat thefixed
screw panels are held
through this 0.3mm
locatorapart
on
4. Screw Fix Locator every corner
2. Pedestal Head
05
The panel is screw fixed through this locator on every corner 1
5. Pedestal
Steel threadhead
rod is die formed aluminium to form a solid
5. Steel thread rod support
18mm to mount
x 150mm steelthe access
thread rod floor to
that gives a range of 9
18mm x 150mm steeladjustment
thread rod from 50mm +/ - from FFH
that gives a range of
3. Clip on AT stringer cavity 8
adjustment 6.
from 50mm
Sound+/and
Cavity- for
from
Impact the FFH
Buffer
AT stringer attachment
A sound and impact buffer washer encased in a steel
6. Sound Impact4.Bufferhousing
Screwpocket intended to eilminate metal on metal
Fix Locator 3
A sound and impactsound rubber washer
The transfer
panel is to the encased
screw slab
fixed through in this
a steel
locator on 2
housing pocket intended everytocorner
eliminate metal on metal
7. Adjusting and locking nut
sound transfer5.to theAdjustment:
slab
Steel threadNutrod can adjust to the required length of 1
the18mm
steel thread
x 150mm rodsteel thread rod that gives a range of 9 4
Locking: Nut has
adjustment froman 50mm
inbuilt vibration
+/ - from proof
FFH locking device, 5
Adjustment: Nut cantoadjust to the
ensure that once required
locked the length
pedestalofheight
the is static
steel thread rod6. Sound and Impact Buffer 7 6
8. Pedestal
A soundTubeand impact buffer washer device,
encased in a steel
Locking: Nut has an Provides
inbuilt vibration proof locking
housingrigidity
pocket and stability
intended to
to steel thread
eilminate rod on metal
metal 3
to ensure that once locked the pedestal
sound transfer to the slabheight is static 2
9. Pedestal Base
8. Pedestal Tube 100mm x 100mm pedestalnut base that provides a solid
7. Adjusting and locking
Provides rigidity andweight
stability to steel
bearing
Adjustment: platform
Nut canthread
for therod
adjust toaccess floor. Pedestal
the required length of Field Pedestal
basethehas 4 fixing
steel thread holes
rod 4
9. Pedestal Base
Locking: Nut has an inbuilt vibration proof locking device, 5
100mm x 100mm pedestal base
to ensure that
that provides
once locked the a pedestal
solid weight
height is static
bearing platform for the access floor. Pedestal base has 7 6
4 fixing holesS68.Perimeter
Pedestal Tube
Pedestal
Provides rigidity and stability to steel thread rod
3
1. Pedestal Head and Welded Steel Thread
9. Pedestal
90mm x 90mmBasesteel flat head pedestal designed to
100mm
provide x 100mm
a solid base pedestal basepositioned
for the panel, that provides a solid
as perimeter
weight bearing
pedestals. A 18mmplatform
x 150mmfor thethread
steel accessrod
floor.
thatPedestal
is welded
Perimeter Pedestal base
onto thehas 4 fixing
bottom holes
of the pedestal head with an
adjustment rage of 50mm +/ - from the FFH
1. Pedestal Head and Welded Steel Thread Rod 4
2. Locking Nut
90mm x 90mm steel Nutflathas
head pedestal designed to provide a solid
an inbuilt vibration proof locking device, to
base for the panel, positioned
S6 Perimeter as perimeter
Pedestal
ensure that once pedestals.
locked the pedestal heightA 18mm
is static
x 150mm steel1.thread Pedestal
rod thatHead
is welded onto the bottom of the 3
3. Pedestal Tube and Welded Steel Thread
pedestal head with an adjustment
90mm
Pedestal x 90mm
tube range
steel
provides flat of
head
rigidity50mm +/ - designed
pedestal
and stability from
to steelthetoFFH
thread rod provide a solid base for the panel, positioned as perimeter
2. Locking Nut pedestals. A 18mm x 150mm steel thread rod that is welded 1
Nut has an inbuilt
4. vibration proof
onto the
Pedestal bottom
Base locking device,head
of the pedestal to ensure
with an that
once locked the pedestaladjustment
100m height
x 100mm rage of 50mm
base+/
is static
pedestal - from
that the FFH
provides a solid
weight bearing platform for the access floor. Pedestal 2
3. Pedestal Tube2. Locking
base has 4 Nut
fixing holes
4
Nut
Pedestal tube provides has an and
rigidity inbuiltstability
vibration to
proof locking
steel device,
thread rodto
ensure that once locked the pedestal height is static
4. Pedestal Base
100mm x 100mm 3. Pedestal
pedestal Tubethat provides a solid weight
base
Pedestal tube provides rigidity and stability to steel
bearing platform for the access
thread rod floor. Pedestal base has
4 fixing holes 1
4. Pedestal Base
100m x 100mm pedestal base that provides a solid
weight bearing platform for the access floor. Pedestal 2
base has 4 fixing holes
Perimeter Pedestal
31
32
06
System Overview
SC Air Tight System
33


06 Suitable for office areas where heavy equipment is being used such as compactus zones, printer zones,


Heavy Industrial Grade SC 11kN (CISCA Standard)

Recommended for areas of heavy dead loads, high regular live rolling loads or high impact load areas such as car
showrooms and gym weights zones.
34
Steel Cementitious Panel - SC Air Tight System Overview
The ASP Air Tight System is a system that is specifically designed to minimise air leakage, when the access floor
is to be used as a plenum.
This system incorporates the use of a clip on air tight stringer that acts as a barrier in between the panels
Steel Cementitious Panel - SC Air Tight System Overview
to eliminate air leakage.
General Offices
Banks
The ASP Air Tight System is a system that is specifically designed to minimise air leakage, when the access floor is to be
Learning Institutions
used as a plenum. Libraries
Casinos
This system incorporates the use of a clip on air tight stringer that creates a seal in between the panels to control air leakage.
5 and 6 green star rated buildings and projects
• General Offices
• Banks
• Learning Institutions
• Libraries
• Casinos
• 5 and 6 green star rated
buildings and projects
06
Design Features
Design Features Steel Encased
surroundings.
Screw hole in each corner to allow panels to be individually screw fixed providing greater rigidity as well as
Inbuilt Expansion Joint and Cut Out easier and faster access.
The panel has a special expansion cut out, and the

pedestal head is fitted with an expansion gasket designed
to keep the panels separated by 0.3mm at all times. This
eliminates the panels clicking or rubbing up against each
other during expansion.

Screw holes in each corner to allow panels to be individually Finishing Panels:
screw fixed providing greater rigidity as well as easier and Full bearing 600 x 300mm and 600 x 800mm panels designed to minimise smallAT
with cutting around columns and finishing off to the perimeter.
Cavity
off cuts insert
experienced / AT Stringer
faster access. The 600 x 300mm panel may also be used when there is a necessity for a 300 x 600mm air grille.
AT Cavity Insert / AT Stringer

Clip insert in for the attachment of the AT stringer to system.
Finishing Panels
Full bearing 600 x 300mm and 600 x 800mm panels designed
to minimise small off cuts experienced with cutting around
equipment and finishing off to the perimeter.
The 600 x 300mm panel may also be used when there is a

Finishing Panels
necessity for a 300 x 600mm air grille.
35
AT S5/S6 System: SC-AT-UF-PT S5/6

110-1200mm FFH
AT S5/S6 System
The AT S5/6 system is for applications that require minimal air leakage with a FFH of 110-1200mm.
The pedestal tubes are cut down to the appropriate length and the steel thread rod is adjusted and
AT S6 System AT S11 System
SC-AT S5/6 180-800mm FFH SC-AT S6 800-1200mm FFH SC-AT-S11 1200mm + FFH
locked at the desired height.
This system is recommended for:
Applications where the sub floor will be used as a plenum to distribute cooling and heating
throughout the buildings which have a minimum air leakage requirement.
System Assembly:
06 The AT S5/6 system is for applications The AT S6 system has been designed The S11 System incorporates
that require minimal air leakage for applications with a FFH of 800- a thicker, sturdier heavy duty
with a FFH of 180-800mm. 1200mm. pedestal base and tube to suit
seismic requirements and FFH
The pedestal tubes are cut down The pedestal tubes are manufactured
over 1200mm.
to the appropriate length and the or cut down to the appropriate length,
steel thread rod is adjusted and and the steel thread is adjusted and
Understructure
locked at the desired height. locked at the desired height.
• S11 Pedestal
Understructure Understructure • SC 600 Stringer
• S5 Field Pedestal • S6 Pedestal

• S6 Perimeter Pedestal • SC 600 Stringer Air Highway Stringer
A stringer clips into the pedestal head through the AT stringer cavity.
ASP Proprietary Zone Baffle/Air Highway

3mm x 15mm
Sponge Rubber
Air Highway
Stringer clip
Assembly Zone Baffle/Air Highway
The ASP Ultrafix AT air highway is a readymade Stringer Air Highway Panel
clipped
Ultrafix AT Airon systemDetail
Highway that can be incorporated into any Air Highway panel is manufactured to the required FFH level and clips into the air highway
A stringer clips into the
stringer through clipping caps located in the stringer.
application requiring an under floor air highway or

pedestal head through
plenum detail.
Assembly:
the AT stringer cavity.
The specialised sponge rubber creates an air tight seal
The ASP Ultrafix AT air highway is a readymade clipped on system that can be incorporated into any Zone Baffle/Air Highway
to ensure
application requiring that the
an under floorzones are
air highway completely
or plenum detail. sealed.
The specialised sponge rubber creates an air tight seal to ensure that the zones are completely sealed.
Panel Spot welded clip f
attachment to air
Air Highway panel is highway stringer a
other air highways
manufactured to the
required FFH level andAirclips
Highway Angle
into the air highway stringer
35 x 35mm angle that is screw fixed onto the air
highway panel and then affixed into the slab.
through clipping caps
located in the stringer.
Zone Baffle/Air
Highway Angle
35 x 35mm angle that is 35 x 35mm angle for

attaching air highway
screw fixed onto the air to the concrete slab
Architectural Detail: highway panel and then

affixed into the slab.
36
Understructure
S8 Field/Perimeter Pedestal
1. Pedestal Head and welded steel thread rod
90 x 90mm steel flat head pedestal designed to provide
S5 Field Pedestal a solid base for the panel. A 18mm by 150mm steel thread rod
that is welded onto the bottom of the pedestal head
1. Inbuilt Expansion joint gasket with an adjustment range of 50mm +/ - from the FFH
This patented inbuilt expansion

2. joint gasket
Adjusting detailnut
and locking ensures that the
panels are held 0.3mm apart Nut has an inbuilt vibration proof locking device, to 1
2. Pedestal Head
3. Pedestal Tube
Pedestal Head is made of die formed
Pedestalaluminium
tube providesto form
rigidity astability
and solid support
to steel
to mount the access floor panel thread
to rod
3. Clip on AT stringer cavity 4. Pedestal Base

100 x 100mm pedestal base that provides a solid
Cavity for AT stringer attachmentweight bearing platform for the access floor. Pedestal
4. AT stringer
0.8mm thick aluminium clip on stringer with 3mm sponge rubber
3 2
5. Screw Fix Locator
The panel is screw fixed through this locator on every corner
6. Steel thread rod 4 06
18mm x 150mm steel thread rod that gives aSystem Understructure
range of
adjustment from 50mm +/ - from the FFH
7. Sound Impact Buffer Field Pedestal: S5, S5-UK, S11, S14
A sound and impact rubber washer encased in a steel housing pocket
The pedestal head remains the same for the entire system, where only minor changes are made to the
intended to eliminate metal on metal sound pedestal
transfer to to
tubes the
suit slab
the desired FFH.

Adjustment: Nut can adjust to the required length of the steel thread rod
SC - S600 Stringer S5 Field Pedestal
Locking: Nut has an inbuilt vibration proof locking device, to ensure
1. Sponge Rubber
that once locked the pedestal height is static
3mm thick sponge rubber to eliminate metal on
metal noise transfer and assist with air leakage when
9. Pedestal Tube sub floor is used as an air plenum
Provides rigidity and stability to steel thread rod
2. Screw Holes 2
10. Pedestal Base Pre-drilled screw holes to be used in conjunction with
pedestal head to form a rigid grid understructure system
100mm x 100mm pedestal base that provides a solid weight bearing
platform for the access floor.
3. Pedestal
Steel base has 4 fixing holes
1.4mm thick steel stringer, which provides greater
stability and strength at the edges of the panel
S6 Perimeter Pedestal
1. Air Tight Stringer Support Gasket 1 Perimeter Pedestal: S6, S6-UK, S11, S15
Support Gasket allows air tight stringer to continue to perimeters in
The pedestal head remains the same for the entire system, where only minor changes are made to the
order to keep air tightness pedestal tubes to suit the desired FFH.
2. Pedestal Head and Welded Steel Thread Rod 3

90mm x 90mm steel flat head pedestal designed to provide a solid
base for the panel, positioned as perimeter pedestals. A 18mm
x 150mm steel thread rod that is welded onto the bottom of the
pedestal head with an adjustment range of 50mm +/ - from the FFH
3. Locking Nut
Nut has an inbuilt vibration proof locking device, to ensure that
once locked the pedestal height is static
4. Pedestal Tube
Pedestal tube provides rigidity and stability to steel thread rod
5. Pedestal Base AT Stringer
100mm x 100mm pedestal base that provides a solid weight bearing
AT stringer clips into the AT cavity of the field pedestal to
platform for the access floor. Pedestal base has 4 fixing
minimise the air holes
leakage lost in between the panels. This
standard AT stringer is used throughout the entire system.
The top of the stringer comprises of 3mm thick sponge

AT Stringer rubber to act as a barrier in between the panels to
decrease the air leakage.
AT stringer clips into the AT cavity of the field pedestal to minimise the
air leakage lost in between the panels. This standard AT stringer is used
throughout the entire system.
The top of the stringer comprises of 3mm thick sponge rubber to act as
AT Stringer
a barrier in between the panels to decrease the air leakage.
37
38
07
System Overview
SC Rigid Grid System
39


07



40
Steel Cementitious Panel - SC Rigid Grid System
System Overview:
This system as the name suggests has a permanently fixed rigid grid understructure made up from
the pedestals and stringers. The stringers are screw fixed onto the pedestal heads forming a perfect
Steel Cementitious Panel - SC Rigid Grid
600 x 600mm System
square grid.
The SC rigid grid system is designed for applications where:
This system as the name suggests has a permanently fixed rigid1.grid understructure
Where there will be made
constant up from
rolling the
activity on pedestals and stringers
the floor: i.e. banks
2. General high load and traffic areas: i.e. Corridors and lobbies
The stringers are screw fixed onto the pedestal heads forming a perfect 600 x 600mm square grid.
The SC rigid grid system is designed for applications where:

• There will be constant rolling activity on the floor: i.e. banks
• General high load and traffic areas: i.e. Corridors and lobbies
• Panel loading is 11kN and over
07
Design Features
Gravity Fixed Panels when Prefinished

Panels are gravity fixed to the understructure with stringers
providing location and extra strength.
4 Corner Screw Panel when Bare Finish

Screw hole in each corner allows the panels to be individually
screw fixed providing greater rigidity.
This system can be gravity fixed or can be gravity and screw fixed.
Finishing Panels
to minimise small off cuts, experienced when cutting around
columns and finishing off to the perimeter.

Finishing Panels
41
Rigid Grid S8 System

SC-RG S8 110-1200mm FFH
The SC S8 Rigid Grid system has been designed

for applications with a FFH of 110-1200mm.

to the appropriate length, and the steel thread is
Understructure
• S8 Field/Perimeter Pedestal
• SC 600 Stringer
07
Rigid Grid S11 System

SC-RG-S11 1200mm + FFH
The S11 System incorporates a thicker, sturdier

heavy duty pedestal base and tube to suit
seismic requirements and FFH over 1200mm.
Understructure
• SC 600 Stringer
42
1. Pedestal Head and welded steel thread rod

90 x 90mm Understructure
steel flat head pedestal designed to
provide a solid base for the panel. A 18mm by 150mm
steel thread rod that is welded onto the bottom
S8 Field/Perimeter
of the pedestal Pedestal range of
head with an adjustment
1. Pedestal
50mm +/ - from the FFH. Head and welded steel thread rod
90 x 90mm steel flat head pedestal designed to provide
2. Adjusting and locking nutbase for the panel. A 18mm by 150mm steel thread rod
a solid
that is welded
Nut has an inbuilt vibration onto
proof the bottom
locking of theto
device, pedestal head
with an adjustment range of 50mm +/ - from the FFH
ensure that once locked the pedestal height is static.
2.
3. Pedestal Tube Adjusting and locking nut
Nut has an inbuilt vibration proof locking device, to
Pedestal tube provides rigidity
ensure and
that once stability
locked to steelheight is static
the pedestal
thread rod.
3. Pedestal Tube
4. Pedestal Base 2
Pedestal tube provides rigidity and stability to steel 1
100 x 100mm pedestal base
thread rodthat provides a solid
weight bearing platform for the access floor.
4. Pedestal Base
Pedestal base has 4100
fixing holes.
x 100mm pedestal base that provides a solid
weight bearing platform for the access floor. Pedestal
base has 4 fixing holes 07
3
4 S8 Field/Perimeter Pedestal
SC - S600 Stringer
SC 600 Stringer
1. Sponge Rubber
1.6mm thick 1. spongeFoam
rubberTapeto eliminate metal on metal
3mm with
noise transfer and assist sponge airrubber foamwhen
leakage to eliminate metalison
sub floor
metal noise transfer and assist with air leakage when
used as an air plenum.
sub floor is used as an air plenum
2. Screw Holes
2. Screw Holes
Pre-drilled screw holes to be screw
Pre-drilled usedholes
in conjunction
to be used in with
conjunction with
pedestal head to form a rigid
pedestal grid
head understructure
to form system. system
a rigid grid understructure
3. Steel 3. Steel
1.4mm thick steel stringer, which
1.4mm thick provides
steel greater
stringer, which stability
provides greater
and strength at the stability
edgesand strength at the edges of the panel
of the panel.
SC - S600 Stringer
43
44
08
System Overview
HPL/ Vinyl System
45



08 Recommended for areas of frequent heavy rolling loads such as casinos and data centre corridors.

46
Steel Cementitious Panel - SC HPL System
Steel Cementitious Panel - System

SC HPL Overview:
System
The SC HPL System is designed for those applications used for computer/data/comms
switch room applications incorporating a 1.6mm thick anti-static HPL covering.
The HPL protects individuals from voltage shorts that can occur with electrical equipment on
The SC HPL System is designed for thosean access floor and
applications also for
used creates an electrostatic discharge which
computer/data/comms switchhelps
roomprevent buildup of
applications
the static electricity which can cause damage to the equipment.
incorporating a 1.6mm thick anti-static HPL covering.
The HPL protects individuals from voltage shorts that can occur with electrical equipment on an access floor and also
creates an electrostatic discharge whichSwitch/Data/Comms/Computer
helps prevent buildup ofRoom
theenvironment like applications:
static electricity which can cause damage to the
equipment.
• Switch/Data/Comms/Computer
Room environment like applications
08
Design Features
Design Features Gravity Fixed Panels:
Panels are gravity fixed to the understructure with stringers providing location and extra strength.
HPL Finish
1.6mm high pressure laminate finish applied to panel in ASP standard finish. Custom and specialised HPL
Gravity Fixed Panels colours available upon request. The HPL panel is then finished with a brown edge, which is designed to
eliminate panel chipping and delamination.
Powder Coating, Nickel Platting and Hot Dipped Galvanised Stringers

Panels are gravity fixed to the understructure with stringers For specialised sensitive areas such as clean rooms and data centres, ASP has introduced powder coated
providing location and extra strength. panels and pedestal tube’s as well as nickel chrome plated pedestal heads, threaded rod and nuts. The
stringers are hot dipped galvanised. This specialised finish is available upon request.
HPL Finish
1.6mm high pressure laminate finish applied to panel in ASP
standard finish. Custom and specialised HPL colours available
upon request. The HPL panel is then finished with a brown edge,
which is designed to eliminate panel chipping and delamination.
Powder Coating, Nickel Platting and Hot Dipped

S8 Pedestal with HPL Finish
Galvanised Stringers Finishing Panels
For specialised sensitive areas such as clean rooms and data Full bearing 600 x 300mm and 600 x 800mm panels designed to minimise small off cuts experienced
with cutting around equipment and finishing off to the perimeter.
centres, ASP has introduced powder coated panels and The 600 x 300mm panel may also be used when there is a necessity for a 300 x 600mm air grille.
pedestal tube’s as well as nickel chrome plated pedestal heads,

threaded rod and nuts. The stringers are hot dipped galvanised.
This specialised finish is available upon request.
Finishing Panels
to minimise small off cuts experienced with cutting around
Finishing Panels
equipment and finishing off to the perimeter.

47
Cementitious HPL S8 System

SC-HPL-RG S8 110-1200mm FFH
The SC HPL S8 system has been designed for applications

with a FFH of 110-1200mm.
The pedestal tubes are manufactured or cut down to

the appropriate length, and the steel thread rod is
Understructure
• SC - S600 Stringer
08
Cementitious HPL Heavy Duty S11 System

SC-HPL-RG S11 1200mm + FFH
The S11 System incorporates a thicker, sturdier heavy

duty pedestal base and tube to suit seismic and FFH
over 1200mm.
Understructure
• SC S600 Stringer
48
Understructure
Understructure
System Understructure (cont...)
S8 Field/Perimeter
and welded steelPedestal
nderstructure
1. Pedestal Head
90 x 90mm1.steel flat Pedestal
head pedestal
thread rod
designed
Head and welded to provide
steel thread rod
a solid base for the panel.
90 x 90mmA 18mm by head
steel flat 150mm steel thread
pedestal rodto provide
designed
1. that is welded
Pedestal Headonto
and thea bottom
solid
welded base of
steelfor the pedestal
the panel.
thread rod A 18mmheadby 150mm steel thread rod
Field/Perimeterwith90 xan
Pedestal adjustment
90mm that
steel flat range
headis pedestal
welded
of 50mm onto
+/ the bottom
- from
designed tothe of the
FFH
provide a pedestal head
solid base for the panel. A 18mm by 150mm steel thread
Pedestal
2. Head and welded
Adjusting and steel thread
locking nut rod
rod that is welded onto the bottom of the pedestal head
90 x 90mm steel
Nut flat
has head
2. pedestal designed
Adjusting andto provide
locking nut
1
with anan inbuilt vibration
adjustment range
Nut has
proof
of
an50mmlocking device,
+/vibration
inbuilt - from to
the FFH.
a solid base for the panel.
ensure A 18mm
that once lockedby 150mm
the steel
pedestal threadproof
height isrod locking device, to
static
that is welded Adjusting
2. onto and locking
the bottom nutpedestal
ofensure
the that once locked the pedestal height is static
head
with Nut has an inbuilt vibration proof locking device, to
3. an adjustment
Pedestal range
Tubeof 50mm +/ - from the FFH
Understructure
Pedestal
3. once locked
ensure that Pedestal
tube provides
theTube
pedestal height is static.
rigidity and stabilityrigidity
to steel
Pedestal tube provides and stability to steel
Adjusting and locking
Pedestal
3. thread rodnut
Tube
thread rod
Nut has an inbuilt vibration
Pedestal tubeproof locking
provides device,
rigidity to
and stability to steel 1
ensure
4. that once S8
threadField/Perimeter
locked
Pedestal Baserod. the Pedestal
pedestal height is static
4. Pedestal Base
Pedestal
4. 1001.x 100mm Base
Pedestal Head
pedestal and
100base welded
x 100mm steel thread
thatpedestal
provides arod
basesolid
that provides a solid
Pedestal Tubeweight
100 x 100mm 90 x 90mm steel flat head pedestal designed to provide
bearing pedestal
platform base
weight for that
the
bearing provides
access a solid
floor.
platform weight
forPedestal
the access floor. Pedestal
a solid base for the panel. A 18mm by 150mm steel thread rod
Pedestal tubebase
provides
bearing 4rigidity
has platform
fixing and
holes stability
forbase
the has
access to steel
4 bottom
fixing
floor.holes
Pedestal basehead
has
that is welded onto the of the pedestal
thread rod 4 fixing holes.
Pedestal Base 2. Adjusting and locking nut

Nut has an inbuilt vibration proof locking device, to 3
3 2
100 x 100mm pedestal base that provides a solid 1 2
base has 4 fixing3.holes Pedestal Tube
Pedestal tube provides rigidity and stability to steel 4
thread rod 4
4. Pedestal Base 3 2 08
100 x 100mm pedestal base that provides a solid
4
3 2
SC - S600 Stringer
4
SC - S600 Stringer
1. Sponge Rubber
SC - S600 1.6mm
Stringer1. spongeSponge
thick rubber Rubber
to eliminate metal on metal
3mmwith
noise transfer and assist thick
airsponge
leakagerubber
when to eliminate
sub floor metal on
1. Sponge Rubber metal noise transfer and assist with air leakage when
is used as an air plenum.
3mm thick sponge rubber toiseliminate
sub floor metal
used as an on
air plenum
Screw
2. metal Holestransfer and assist with air leakage when
noise
subPre-drilled screwas
floor is2.used holes to be
Screw
an air used in conjunction with
Holes
plenum
pedestal head to form a rigid grid understructure system.
2
- S600 Stringer Pre-drilled screw holes to be used in conjunction with
2. 3. Screw
Steel Holes pedestal head to form a rigid grid understructure system
Sponge Rubber SC - S600 Stringer 2
Pre-drilled screw
1.4mm thick steelholes to be
stringer, used
which in conjunction
provides with
greater stability
3mm thick sponge 3.Sponge
1. rubber to Steel metal on
eliminate
Rubber
pedestal head
and strength atto form
the edgesa rigid
of thegrid understructure system
panel.
metal noise transfer and 3mm assistthick
with1.4mm
sponge thick steel
rubber
air leakage to whenstringer,
eliminate which
metal on provides greater
metal noisestability
transfer and
and assist with air
strength atleakage
the whenof the panel
edges
sub floor is used as an air plenum
3. Steel sub floor is used as an air plenum
Screw Holes stability
2. Screw Holes
andPre-drilled
strengthscrewat the edges of the panel 2
2
holes to be used in conjunction with
Pre-drilled screw holes topedestal
be used 1 with
in conjunction
head to form a rigid grid understructure system
pedestal head to form a rigid grid understructure system
3. Steel
Steel 1 thick steel stringer, which provides greater
1.4mm
stability and strength at the edges of the panel
stability and strength at the edges of the panel 3 SC - S600 Stringer
1 3
49
3
High Pressure Laminate
8191 8192
Standard Stock Colour 8192 8193
2010-5 2103 2158
08
8194 8132 8119
2069 2208
Other colours available on request.
For further information please enquire with the ASP Sales Team.
Phone 02 9620 9915 Email sales@aspfloors.com.au
8144 8137 8138
8117 8312 8311
50
Anti-Static Vinyl
Subject to availability. Minimum quantities and lead times apply.
6101
9103 9101 601
08
9102 9104 9131
6111 9081 9105
6200 6061
Specified Finishes
ASP Access Floors are able to prefinish our range of panels in a variety of materials specified by you. These finishes may
include but are not limited to vinyl, stone, tiles, timber or laminate.
For further information please enquire with the ASP Sales Team.
Phone 02 9620 9915 Email sales@aspfloors.com.au
51
52
09
System Overview
Steel Wrapped Woodcore System
53



09
54
Woodcore Panel - SW-WC HPL System
The SW-WC system is an access floor system that has been designed for general office areas including commercial
complexes, banks, libraries and learning institutions where the space is occupied by workstations and office equipment.
• Standard Office Applications: General Offices, Banks
• Learning Institutions: Universities, Libraries
• Other: Casinos, Greenstar Projects
09
Design Features
The SW-WC System incorporates a screw hole in each corner of

the panel, which allows the panels to be individually screwed
into the pedestal heads providing greater rigidity along with
The SW-WC System features the ASP WG6 Stringer, which is

screw fixed onto the pedestal head. The top of the stringer
comprises of 3mm thick sponge rubber foam providing a buffer
in between the stringer and panels.
The panel size is 600 x 600mm.

55
Installation Overview
The raised access floor installation shall consist of 30mm thick, 600 x 600mm steel wrapped woodcore panels
supported by a steel understructure which unite to form an extremely stable surface and maintain this stability
even when panels are removed for servicing purposes. The stringered under-structure is secured onto the existing
slab by using either pedestal adhesive, or being punned or bolted. The WG6 stringers are screw fixed onto the
pedestal heads, forming a rigid grid understructure, where the panels can be either gravity laid or screw fixed.
Steel Wrapped Woodcore System Freelay

80-800mm FFH S2/S4 Pedestal
09
Steel Wrapped Woodcore System Steel Wrapped Woodcore System

Rigid Grid Rigid Grid
S6 Pedestal 800-1200mm FFH S11 Pedestal 1200mm and over FFH
(also suitable for air plenums) (also suitable for air plenums)
56
S4 Pedestal
1. Pedestal Head and Gasket

90 x 90mm steel flat head pedestal design to provide a solid
base for panel, positioned as perimeter pedestals
2. Steel thread
18mm x 110mm steel thread rod that can be used in conjunction
with a threaded pedestal tube to get the maximum possible
adjustment for a low profile system. Height ranges 110-180mm
3. Locking Nut
Nut has an inbuilt vibration proof locking device, to ensure
4. Threaded Pedestal tube
Threaded pedestal tube to be used in conjunction with the
steel thread rod to have a max height of 180mm
5. Pedestal Base
100 x 100mm pedestal base that provides a solid weight
bearing platform for the access floor. Pedestal base has
4 fixing holes
S4 Pedestal
09

90mm x 90mm steel flat head pedestal designed to
provide a solid base for the panel, positioned as perimeter
pedestals. A 18mm x 150mm steel thread rod that is welded
onto the bottom of the pedestal head with an
2. Locking Nut
3. Pedestal Tube
4. Pedestal Base
57
58
10
System Overview
Steel Wrapped Calcium
Sulphate System
59



10
60
Steel Wrapped Calcium Sulphate System
The SNA Series SCS-RG is an access floor system that has been designed for general office areas including commercial
complexes, banks, libraries and learning institutions where the space is occupied by workstations and office equipment.
• Standard Office Applications: General Offices, Banks
• Learning Institutions: Universities, Libraries
• Other: Casinos, Greenstar Projects
Design Features
The SCS 3.0-RG System incorporates a screw hole in each 10

corner of the panel, which allows the panels to be individually
screwed into the pedestal heads providing greater rigidity
along with easier and faster access.
The SCS 3.0-RG System features the ASP WG6 Stringer, which
is screw fixed onto the pedestal head. The top of the stringer
comprises of 3mm thick sponge rubber foam providing a buffer
in between the stringer and panels.
The panel size is 600 x 600mm.

61
The raised access floor installation will consist of 30mm thick, 600 x 600mm steel wrapped calcium sulphate panels
supported by a steel understructure which unite to form an extremely stable surface and maintain this stability
even when panels are removed for servicing purposes. The stringered under-structure is secured onto the existing
slab by using either pedestal adhesive, or being pinned or bolted. The WG6 stringers are screw fixed onto the
pedestal heads, forming a rigid grid understructure, where the panels can be either gravity laid or screw fixed.
Steel Wrapped Calcium Sulphate System

80-800mm FFH S2/S4 Pedestal
10
Steel Wrapped Calcium Sulphate System Steel Wrapped Calcium Sulphate System
Rigid Grid Rigid Grid
S6 Pedestal 800-1200mm FFH S11 Pedestal 1200mm and over FFH
(also suitable for air plenums) (also suitable for air plenums)
62
S4 Pedestal
1. Pedestal Head and Gasket

90 x 90mm steel flat head pedestal design to provide a solid
base for panel, positioned as perimeter pedestals
2. Steel thread
18mm x 110mm steel thread rod that can be used in conjunction
with a threaded pedestal tube to get the maximum possible
adjustment for a low profile system. Height ranges 110-180mm
3. Locking Nut
Nut has an inbuilt vibration proof locking device, to ensure
4. Threaded Pedestal tube
Threaded pedestal tube to be used in conjunction with the
steel thread rod to have a max height of 180mm
5. Pedestal Base
4 fixing holes
S4 Pedestal
10
90mm x 90mm steel flat head pedestal designed to
provide a solid base for the panel, positioned as perimeter
pedestals. A 18mm x 150mm steel thread rod that is welded
onto the bottom of the pedestal head with an
2. Locking Nut
3. Pedestal Tube
4. Pedestal Base
63
64
11
System Overview
Calcium Sulphate
Interlock System
65
Calcium Sulphate Interlock System
The SNA Series CS-IL is an access floor system that has been designed for applications where stone or tile finishes are
to be applied.
The access floor will have a safety factor of three times the concentrated (design) load and is capable of meeting static
and dynamic loads experienced within the majority of general office environments, as per AS415-1193 Australian
Standard - General Access Floors.
1. Lift Lobbies
2. Wet areas
3. Any areas where stone or tile
finishes are required
The panel and under-structure unite to

form an extremely stable surface so that
stone and tile surfaces can be directly
applied. The stringerless under-structure
is secured onto the existing slab by using
either pedestal adhesive, or being pinned
or bolted. The panel is screw fixed onto
the pedestal head at each corner to help
provide rigidity to the system.
Design Features
Interlocking edges
The CS-IL has a specially designed interlock edge profile
to ensure panels remain locked together. This eliminates
11 the problem of movement and so alleviates the need for

a substrate to be laid before tiles or stone are installed.
Screw Hole corners

The CS-IL panel also has a screw hole in each corner
enabling the panel to be screw fixed into the pedestal
head providing greater rigidity along with easier and
faster access.
Panel Size
600 x 600mm square
Screw hole corners
66
Calcium Sulphate Interlock S2 System Calcium Sulphate Interlock S4 System

CS-IL S2 50-110mm FFH CS-IL S4 110-180mm FFH
The CS-IL S2 Interlock system has been designed for those The CS S4 Interlock system has been designed for low
low profile applications with a FFH 50-100mm. profile applications with a FFH 110-180mm.
The pedestal height is adjusted by turning the steel thread The pedestal height is adjusted by turning the steel
rod up or down to the desired height. thread rod up or down to the desired height.
Understructure Understructure
• S2 Pedestal • S4 Pedestal
Calcium Sulphate Interlock S6 System Calcium Sulphate Interlock

CS-IL S6 180-1200mm FFH CS-IL S11 1200mm + FFH
11
The CS S6 Interlock system has been designed for The CS S11 is a Heavy Duty system. The S11 System
applications with a FFH 180-1200mm. incorporates a thicker, sturdier, heavy duty pedestal
base and tube to suit seismic requirements and FFH
over 1200mm
to the appropriate length, and the steel thread rod is
Understructure
Understructure • S11 Pedestal
• S6 Pedestal
67
6. Steel thread rod
18 x 75mm steel thread rod
7
7. Pedestal Base 6
4 fixing holes
System Understructure (cont...)

1. Pedestal Head
90 x 90mm steel flat head pedestal design to provide
S2 PerimeteraPedestal
solid base for panel, positioned as perimeter pedestals
1. Pedestal
2.
Head
Adjusting and locking nut
90 x 90mm steel flat head
Adjustment: pedestal
Nut can design
adjust to to provide
the required length of the
1
a solid base steel
for panel, positioned as perimeter pedestals
thread rod
Locking: Nut has an inbuilt vibration proof locking device,
2. Adjusting and locking
to ensure nut
Adjustment: Nut can adjust to the required length of the
3. thread Steel
steel rod thread rod
18 x 110mm steel thread rod
Locking: Nut has an inbuilt vibration proof locking device,
4.
to ensure Pedestal
that onceBase
locked the pedestal height is static
3. Steel thread bearing
rod platform for the access floor. Pedestal base has
2
18 x 110mm 4steel
fixingthread
holes rod
4. Pedestal Base
4 fixing holes
3
4
Performance to Standards Guide per AS4154-1993 Australian Standard - General Access Floors

Loading Definitions
The maximum deflection and permanent set of an access floor panel under point load.
11 Concentrated Load In a typical office building scenario, concentrated loads are typically imposed by stationary
furniture and equipment with legs.
The maximum load applied onto the panel without structural failure. This is sometimes expressed
Ultimate Load
as a multiple of concentrated load and referred to as a safety factor.
The effects and/or deformation of an access floor panel and under-structure, when subjected
to heavy loads being dropped onto the access floor system. This is to test the maximum load
Impact Load that can be “accidentally” dropped onto the floor without damage to the system. An impact
load imposed on the access floor system by dropping a 4-kg mass from a 10000mm height onto
a 25mm x 25mm square indenter shall not create structural failure.
The durability and/or deformation of an access floor system when exposed to commercially
anticipated caster traffic using a specific load. Rolling loads are defined by the number of
Rolling Load passes, size and hardness of the wheels, and the combined weight of the cart and its contents
on each wheel. These loads are typically imposed by equipment on wheels across the
access floors.
68
Concept + Innovations Range 12
69
Concept + Innovations Range
The Concept + Innovations Range offers you the freedom to choose the desired floor finish for your environment whilst
maintaining accessibility to the services in your under floor space.
Material Possibilities
The Concept + Innovations Range is a fully customisable system offering you the flexibility to nominate a flooring product
of your choice to be prefinished onto our load rated access floor Concept Panel.
Stone
Cork Timber
12
70
Accessories
13
71
72
ASP Proprietary Bridging Stringer
The ASP Bridging Stringer can be incorporated into applications that require bridging over 600mm to fit services such as
A/C ducts, oversized cable trays, etc. The bridging stringer is designed to span across 1200mm lengths, without the use
of supplementary support.
Steel Cementitious Ultrafix System
33mm
50mm
SS Pedestal S6 Pedestal
S1 Pedestal
125mm
Steel Cementitious Rigid Grid System
36mm
50mm 13
S6 Pedestal
S2 Pedestal
125mm
73
Ultrafix AT Air Highway Detail
Assembly:
ASP Proprietary Zone Baffle/Air Highway

The ASP Ultrafix AT air highway is a readymade clipped on system that can be incorporated into any
application requiring an under floor air highway or plenum detail.
The specialised sponge rubber creates an air tight seal to ensure that the zones are completely sealed.
Assembly
The ASP Ultrafix AT air highway is a ready-made clipped
Air Highway Stringer
on system that can be incorporated into any application
A stringer clips into the pedestal head through the AT stringer cavity.
that requires an under floor air highway or plenum detail.
The specialised sponge rubber creates an air tight seal

to ensure that the zones are completely sealed.
3mm x 15mm
Sponge Rubber
Air Highway
Architectural Detail: Stringer clip
Zone Baffle/Air Highway Stringer Air Highway Panel
A stringer clips into the pedestal head through the Air Highway panel is manufactured to the required FFH level and clips into the air highway
stringer through clipping caps located in the stringer.
AT stringer cavity.
Spot welded clip for

Zone Baffle/Air Highway Panel attachment to air
highway stringer and
The Air Highway panel is manufactured to the required FFH other air highways
level and clips into the air highway stringer through clipping
caps located in the stringer. Air Highway Angle
35 x 35mm angle that is screw fixed onto the air

highway panel and then affixed into the slab.
Zone Baffle/Air Highway Angle

35 x 35mm angle that is screw fixed onto the air highway
panel and then affixed into the slab. 35 x 35mm angle for
attaching air highway
to the concrete slab
13
74
The ASP SNA S-ECC power board system
ASP Power Board and Lid - SNA S-ECC allows the occupant of the building the ASP Power Board and Lid
flexibility in choosing and designing the location
of workstations and areas requiring power and
data services.
This unique system is designed to be able to soft wire

from a main power junction.
Another key feature of the SAN ECC power board is The thatASP SNA S-ECC
allows the power board system
allows the occupant of the building the
ASP Power Board Lid occupant to add on extra outlet to suit their requirements.
flexibility in choosing and designing the location
of workstations and areas requiring power and
This system clips into our ASP cable trays - which helps to keep
data it in position
services.
and allows easy access.
This unique system is designed to be able to soft wire
from a main power junction.
The ASP power board lid allows the occupant of the building the flexibility in choosing andAnother
designing the location of
key feature of the SAN ECC power board is that allows the
workstations and areas that require power and data services. occupant to add on extra outlet to suit their requirements.
This system clips into our ASP cable trays - which helps to keep it in positi
This power board lid is constructed from 100% recycled ABS plastic and incorporates a rubber grommet
and allows to cover and
easy access.
protect the cables.
This power board lid is constructed from 100%

recycled ANS plastic and incorporates a rubber
grommet to cover and protect the cables.
This power board lid is constructed from 100%

recycled ANS plastic and incorporates a rubber
grommet to cover and protect the cables.
Panel Lifter
Handle
Aluminium Air
Release Handle
Panel Lifter
Panel Lifter
Black Rubber
Suction Caps
Handle
Aluminium Air
Release Handle
13
Black Rubber
Suction Caps
Panel Lifter Tray
75
76
Ultra Fix Single Wiring Tray Detail
Assembly:
The ASP Ultrafix wiring tray is a proprietary clipped on system. Its specialised IT stringer clips onto
the pedestal head. The wiring trays are then clipped onto the bottom of the IT stringer, creating
a 600mm wide cable tray.
Single Wiring Tray Detail
Assembly
The ASP Ultrafix wiring tray is a proprietary clipped on
system. Its specialised IT stringer clips onto the pedestal
head. The wiring trays are then clipped onto the bottom
of the IT stringer, creating a 600mm wide cable tray.
Architectural Detail
Architectural Detail
AT Cavity
Screw-Fix Point
3mm x 15mm Sponge Rubber
13
Wiring tray clip insert
IT Stringer Clip
77
78
100-RSI-DB
100-RSI-DB 100mm Double Brushed Circular Grommet
The air controlled grommet has been designed to seal openings within the
Description of Grommet
access floor to reduce air leakage at cable penetrations, maximizing the
efficiency of the under floor cooling system.
This Double Brushed Circular Grommet is the superior choice for your
facility.
Grommets
14
Open Area No Test
DCB (center) DCB (side) PC (center) PC (side)
Available Penetration Average
100-RSI-DB
79 100 sq. in. 4.6 5.4 11.8 0.1 10 6.4
PC – 9/16” Data Cable Bundle

Cable Penetration Size 100mm Diameter
Outer Flange Size 148mm Diameter
14
Circular Grommets
Circular Grommets
125-RSI-CE Screw
Screw inin
Grommet
125-RSI-CE Grommet with brushes
This 125mm grommet is designed to be screw fixed into position.
125-RSI-CE Screw in Grommet
Cut Out Size 124mm Diameter
This 125mm grommet is designed to be screw fixed into position.
Cable Penetration Size Cable Penetration Size
125-RSI-CE Screw in Grommet with brushe
80-RSI-CE Push in Grommet


Cable
CablePenetration
Penetration SizeSize 74mm 74mm
Diameter
Diameter

125-RSI-CE Screw in Grommet with brushe
100-RSI-DB

d Circular Grommet
100-RSI-DB 100mm Double BrushedCable
Circular Grommet
Penetration Size 100mm Diameter
openings within the Outer Flange Size 148mm Diameter

ns, maximizing the
or choice for your Cut Out Size 100mm Diameter


14

80
14
14
Cable Grommets - Non Brushed, Brushed and
Cable Grommets - Non Brushed, Brushed and Twin Brushed COP WB Brush Series
Twin Brushed COP WB Brush Series
14
Cable Grommets
COP
COP WBWB Single
Single -Dimensions
Non Brushed, Brushed and
Coarse
Brush
Coarse Brush
COP WB Single Coarse Brush Dimensions
Cut Out
Cut Size
Out Size 190 x 160mm
190 x 160mm
Cable Penetration Size 170 x 140mm

COP WB Single Coarse Brush Dimensions
Cut Out Size 190 x 160mm
Outer Flange Size 215 x 205mm
CableFlange
Outer Penetration
Size Size 170 x 140mm
215 x 205mm

COP WB 4 sided DoubleCOP

BrushWBDimensions
4 sided Double Brush Series
COP WBD 4 Sided Double Brush

BrushWBDimensions
4 sided Double Brush Series
Cable
Cut Penetration Size
Out Size 200 x 130mm
235 x 165mm
BrushWBDimensions
4 sided
Cut OutDouble
Size Brush Series 235 x 165mm
Cable
CablePenetration Size
Penetration Size 200 x 130mm
200 x 130mm

Outer Flange Size
Cut Out Size
280 x 210mm
235 x 165mm
NOTE: Lid Flange

Outer also available.
Size 280 x 210mm
COP WBDH Single sided Brush Dimensions

COP WBDH Three Sided Double Brush
Cut OutFlange
Outer Size Size 235 x 85mm
280 x 105mm
Outer
Outer Flange
Flange Size
Size 280 x 105mm
280 x 105mm
14
81
Cable Grommets - Non Brushed, Brushed and 14
Twin Brushed AL Series
AL 1072 Dimensions

Twin Brushed AL Series
AL 1072 Dimensions
Cable Grommets AL Series Cable Penetration Size 135 x 145mm

AL 1072 Cut Out Size
Dimensions 152 x 152mm
AL 1072

CablePenetration
Cable PenetrationSize
Size 135 x 145mm
135 x 145mm

AL 10049 Dimensions

ALAL10049
10049 Dimensions

Cut
Cut OutSize
Out Size 107107
x 155mm
x 155mm
AL 10049 Dimensions
Cut Out
Outer Size Size
Flange 107125
x 155mm
x 190mm

AL 10312
AL 10312 Dimensions
Cut
CutOut
Out Size
Size 105 x105 x 100mm
100mm
AL 10312 Dimensions
AL 10312 Dimensions

14
82
Architectural Details
83
15
Ultra Fix Perimeter Detail 150-600mm from Perimeter
Perimeter Detail 150-600mm from Perimeter
1
2
ITEM DESCRIPTION
1. 600 X 600 full size panel

ITEM
2. DESCRIPTION
Field Pedestal: S1, S3, S5, S11, S14 - Depending on required FFH
3. Sponge rubber buffer to infill perimeter sill
14. Perimeter
600 x 600 panel
full size cut down to required length
panel
5. Perimeter Pedestal; S2, S4, S6, S11, S15 - Depending on required FFH
2 Field Pedestal: S1, S3, S5, S11 - Depending on required FFH
3 Sponge rubber buffer to infill perimeter sill
4 Perimeter panel cut down to required length
5 Perimeter Pedestal; S2, S4, S6, S11 - Depending on required FFH
15 84
Ultra Fix Plasterboard Wall Perimeter Detail
Plasterboard Wall Perimeter Detail
3
1
5 6
ITEM DESCRIPTION

2.ITEM DESCRIPTION
Field Pedestal: S1, S3, S5, S11, S14 - Depending on required FFH
3. Perimeter panel cut down to required length
4. 1 600Skirting
x 600 full size panel
4 Skirting
85
15
Ultra Fix Understructure Curb Detail
Curb Detail - Option 1
1
3
4 6
ITEM DESCRIPTION
1 600 x 600 full size panel
6 45 x 45mm structural angle
ITEM DESCRIPTION

2. Field Pedestal: S1, S3, S5, S11, S14 - Depending on required FFH
3. Perimeter panel cut down to required length
Curb Detail - Option 2 6. 45 x 45mm structural angle
ITEM DESCRIPTION
1 600 x 600 full size panel
15 86
Ultra Fix Proprietary Fascia Detail
Proprietary Fascia Detail
ITEM DESCRIPTION

2. Field Pedestal: S1, S3, S5, S11, S14 - Depending on required FFH
ITEM3. DESCRIPTION
Perimeter panel cut down to required length
1 5. Screw
600 x 600 full fix
size panel
6. Step Tread
7. Panel fascia
2 8. Field Pedestal:
Adjustable S1, S3, S5, S11 - Depending on required FFH
U channel
5 Screw Fix
6 Step Tread
7 Panel Fascia
87
15
Project: Medibank Melbourne
88
Standard Ramp Detail
Ramp Building Recommendations
Ramp Slope
1. A slope no greater than 1:8 when under 1.5m long,
or 1:14 if between 1.5m and 9m long.
2. A landing at the top that is 1m wide by 1.33m long
for ramps with a 1:8 slope, or 1.2m long for a 1:14
ramp slope.
3. A smooth transition to their landings and adjoining
walkways.
Ramp Size
Ramp width should be in 600mm incriments, therefore

allowing for the use of a full panel.
Application
This typical standard ramp details can be used for our

entire access floor range.
Standard Step Detail
89
15
Access Floor onto Lift Door Threshold
Access Floor onto Lift Door Threshold:
Finished Detail
Finshed Detail
Option 1:
Option 1
Use of perimeter pedestals
Use ofto support pedestals
perimeter panels at to
edge
support
panels at edge
Where the access floor meets a
Wherethreshold, thefloor
the access acces floor a
meets panels
is supported using perimeter
threshold, the access floor panels is
pedestals.
supported using perimeter pedestals.
Option 2
Option 2:
Using alloy
Usingangle
alloy to support
angle to panels
support panels
If the structure and design do not
allow for a perimeter pedestal to be
If the structure and design do
used, a not steel angle
allow for acan be used
perimeter to
pedestal
support to panel.
be used, a steel angle can be
used to support panel.
15 90
Radial Radial Wall
Wall Detail Detail
300mm
300mm
800mm
800mm
Radial Wall Detail using 800 and 300mm panels
Details
Details:
In order to minimise wasted panels and to ensure panel integrity in
these areas, the use of 300mm and 800mm finishing panels can be
In order to minimise wasted panels and to ensure panel integrity
used
in these in conjunction
areas, with theand
the use of 300mm standard
800mm600mm
finishingpanels.
panels canUsing these
differing
be used sized panels
in conjunction withwith the S13 Pedestal
the standard allows for
600mm panels. full panels to
Using
theseoverlap
differingsome
sized supporting
panels with pedestals,
the S13 Pedestal
allowingallows
for for
thefull
use of different
panels to overlap some supporting pedestals, allowing for the
sized panels to minimise cuts and wastage.
use of different sized panels to minimise cuts and wastage.
Using the S13 pedestal in situations as above, 300, 600 and 800mm
S13 Pedestal Using the S13 pedestal in situations as above, 300, 600 and 800mm
panels
panels can
can be be supported
supported in off
in off grid grid positions.
positions.
91
15
Angled Perimeter Wall
Angled Perimeter Wall
Rigid Grid System:
Stringers cut to size
Ultrafix System:
Perimeter Pedestals used

to support cut panels
15 92
Converting from Ultra Fix to
Rigidfrom
Converting Grid Systems:
Ultra Fix to Rigid Grid System
S12 UVF Plastic Head
The S12S12UVF
UVFPlastic Head
Plastic Head allows the conversion from air
tight ultra fix system to stringered system. This is also useful
in situations
The S12where there are
UVF Plastic Headcontinous
allows air
thegrilles (as shown).
conversion from air tight ultra fix
system to stringered system. This is also useful in situations where there
are continous air grilles (as shown).
93
15
Floor Covering from on Grid to Slab Detail

Where the access floor surface is in line with a

subsurface obstruction, fibrous cement can be
used to pack the floor finish to required height. Where the access floor surface is in line with a subsurface obstruction,
fibrous cement can be used to pack the floor finish to required height.
Where the access floor surface is in line with a subsurface obstruction,

fibrous cement can be used to pack the floor finish to required height.
Where acces floor panels are used as surface

finish and underfloor obstruction prevent the use of
pedestals, fibrous cement can be used to support
the panel as well as maintaining the floor level.
Where acces floor panels are used as surface finish and underfloor
obstruction prevent the use of pedestals, fibrous cement can be used
to support the panel as well as maintaining the floor level.
Where acces floor panels are used as surface finish and underfloor
n Grid to Slab Detail Acoustic Barrier Details
obstruction prevent the use of pedestals, fibrous cement can be used
to support the panel as well as maintaining the floor level.
Air Highway and Acoustic Baffle

n Grid to Slab Detail Acoustic Barrier Details
Integrating an air highway into the access floor

system with sound absorbing foam allows for
underfloor areas to be separated by a physical
barrier, allowing for more privacy.
subsurface obstruction,
finish to required height.
subsurface obstruction,
finish to required height.
ASP Air Highway
Integrating an air highway into the access floor system with sound ASP Air Highway
absorbing foam allows for underfloor areas to be separated by a
physical barrier, allowing for more privacy.
Integrating an air highway into the access floor system with sound
absorbing foam allows for underfloor areas to be separated by a
physical barrier, allowing for more privacy.
Acoustic Foam
finish and underfloor

us cement can be used
e floor level. Acoustic Foam
finish and underfloor

us cement can be used
e floor level.
15 94
Bolting Equipment to Sub Floor
Where there is the possibility of equipment overturning on the access floor, it is recommended that this equipment
is mounted
Where theretois the
thesubfloor using
possibility the method overturning
of equipment shown here. on the access floor, it is recommended that this equipment
is mounted to the subfloor using the method shown here.
Where there is the possibility of equipment overturning on the access floor, it is recommended that this equipment
is mounted to the subfloor using the method shown here.
Nuts and washers firmly

support equipment (by others)
Access Floor Panel
Nuts and washers firmly

support
Unistrut equipment
mounted as (by others)
per specification (by others)
Access Floor Panel
Unistrut mounted as
per specification (by others)
95
15
Bridging Obstructions: Bridging over Construction Joints
15 96
Bridging Obstructions: Bridging Wide Obstructions on Subfloor
The use of bridging stringers allows the access floor to cross obstructions such as ducts, etc without interfering with
Bridging Obstructions
the system grid and underfloor services and still able to maintain the load bearing characteristics of the system.
Bridging
Please Wide
refer to earlier Obstructions
chapters on Subfloor
for specific bridging stringer solutions required.
Bridging Stringer
spanning 1200mm
The use of bridging stringers allows the access floor to cross obstructions such as ducts, etc without
interfering with the system grid and underfloor services and still able to maintain the load bearing
characteristics of the system.
Please refer to earlier chapters for specific bridging stringer solutions required.
97
15
Varied FFH to allow for different floor finishes
15 98
Access Floor Interface at Glass Door
Access Floor Interface at Glass Door
Structural Steel Stand

By Others
The introduction of perimeter pedestals around the door

The introduction
help of perimeter
support panels that havepedestals
been cut around thedoor
to suit the door help
detail.
support panels that have been cut to suit the door detail.
99
15
Fire Rated Door Threshold
Fire Rated Door Threshold
Threshold Cover
By Others
Access Floor Panel
Fire Barrier
By Others
Structural Wall
Channel By
Others
15 100
Project: Brisbane Supreme Courts
Global Head Office
ASP Access Floors Pty Ltd 32 Prime Drive Seven Hills, NSW 2147, Australia
Tel: +61 2 9620 9915 Fax: +61 2 9620 9918 Email: sales@aspfloors.com.au www.aspfloors.com.au
PROUDLY
AUSTRALIAN
OWNED

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ASP Access Floors Catalogue

02 06 System Selection Guide

03 09 Testing and Frequently Asked Questions

05 27 SC Ultra Fix System

06 33 SC Air Tight System

07 39 SC Rigid Grid System

08 45 SC HPL / Vinyl System

09 53 Steel Wrapped Wood Core System

10 59 Steel Wrapped Calcium Sulphate System

11 65 Calcium Sulphate Interlock System

12 69 Concept + Innovations Range

Board of Directors & Corporate Structure

ASP Managing Director

Project Management Team Tendering Team

The ASP Product Range

The ASP Access Floors Sustainability Policy outlines how

The implementation of the Sustainability will ensure ASP:

The aim of this policy is to incorporate ecologically

Section 1: Indoor Environment Quality

Section 2: Waste Management

Section 3: Recycled Content

Section 4: Carbon Offsets

• measuring the company-wide carbon footprint,

• developing and implementing a carbon reduction strategy, and

• seeing how effective it is.

Sustainability Policy Continued

Section 5: Life Cycle Analysis and Environmental Product Declaration

Objective: To conduct LCA study, compile an EPD and obtain verification

Step 1. ASP conduct an LCA according to ISO 14 040-44 standards.

Step 2. Develop the EPD

• Develop a Project Verification Report (PVR)

Step 3. Verification and registration.

A third party expert verifies:

• The EPD document

• The LCA study

• And files a Verification Report

Registration with the EPD programme operator

5 Project: ANZ Head Office Docklands

System Selection Guide

OFFICE, CASINO, DATA CENTRE,

IS THE UNDERFLOOR SPACE

IS THE FLOOR FINISH IS THE FLOOR FINISH

IS IT FACTORY APPLIED UNDER OVER

CALCIUM STEEL CALCIUM STEEL

Testing and Frequently

Understanding the Specifications

concentrated 25untilx 25mm

This is sometimes expressed as a multiple of

Supporting Heavy Loads

Loads that are to be considered in Understructure Support are:

The pedestals ability to resist overturning movement is determined by:

1. AS4154-1993 - General Access Floors (elevated floors)

3. AS4155.1-1993 - Test for concavity and convexity

4. AS4155.2-1993 - Test for twist

5. AS4155.3-1993 - Test for panel squareness

6. AS4155.4-1993 - Test for the effect of temperature

7. AS4155.5-1993 - Test for the effect of humidity

8. AS4155.6-1993 - Test for floor resistance and electrostatic control

9. AS4155.7-1993 - Test for 300mmx300mm concentrated load

• measuring the company-wide carbon footprint,  

• developing and implementing a carbon reduction strategy, and  

• seeing how effective it is.  