Plastiform Flexible Bonded Magnets Properties
Plastiform Flexible Bonded Magnets Properties
Plastiform Flexible Bonded Magnets Properties
PLASTIFORM DIVISION
Unprecedented design
versatility with the highest
remanence and coercivity
properties available
PLASTIFORM bonded magnets represent
the culmination of years of research and development focused on enhancing the magnetic
and physical properties of polymerized magnet
material.
Since their development in the mid-60s, bonded
magnet materials have evolved from low-energy
and limited geometries into high-energy
materials of nearly unlimited versatility. From
flexible rolls and sheets magnetized with dense
multi-pole patterns, to intricate injection- and
insert-molded shapes, Arnold PLASTIFORM
bonded magnets offer unprecedented design
versatility and uncompromising quality.
In addition to the highest remanence and
coercivity properties available in the industry,
Arnold PLASTIFORM magnets offer superior
thermal characteristics, dimensional stability and
solvent resistance.
Because of their design versatility, exceptional
performance and high quality, Arnold
PLASTIFORM bonded magnets offer significant
systems savings over conventional magnets.
Arnold Engineering offers bonded ferrite and
bonded rare earth materials to meet a wide
variety of requirements for motor stators and
rotors, actuators, instrumentation, armatures and
a diverse selection of holding magnets used in
automotive, medical, military and commercial
applications.
New products are continually being developed.
If you dont see here what you need or for more
information, application engineering assistance
and pricing, call your Arnold sales
representative or the Plastiform Division.
Ease of fabrication
Cost reduction
Multi-pole magnetization
Conformability to application
surfaces
Because of their flexibility, and a combination of hardness, tensile strength and
elongation, these flexible magnets adapt
to the shape of the surface to which they
are applied. In fractional horsepower
motor applications, this property ensures
a snug fit between magnet material and
housing, thereby reducing the air gap,
minimizing reluctance and maximizing
operational efficiency.
PLASTIFORM Quality
PLASTIFORM is manufactured using upto-date statistical methods and
documented statistical data. Customers
can rely on the proven quality of
PLASTIFORM bonded magnetic materials
for a variety of applications.
*Premium tolerance
Applications
Because they successfully combine high
coercive force and residual induction with
flexibility and ease of fabrication,
PLASTIFORM magnets are now being
used in a wide range of electro-magnetic
circuit and equipment applications.
Typical applications include:
Stators for fractional horsepower
motors
Rotors for brushless DC motors
Reed relay actuation in switches,
keyboards, counters and sensors
Magnetic focusing systems for TV tubes
Multi-pole magnetic rotors for timer,
stepper and clock motors
High performance latches
Magnetic pick-ups for electronic ignition
and braking systems
Magnetic clutch in computer disc pack
drive
Snap-action devices for use as power
switch contacts
A primary reason for the material's
acceptance into these markets has been
its adaptability to automated handling
systems.
The automated equipment used to insert
PLASTIFORM permanent magnets into
fractional horsepower motor and alternator housings typically consists of the
following components:
1. The magnetizing fixture which is built
into the inserter machine to magnetize
the magnet prior to insertion
2. A power unit designed to provide electrical energy to the magnetizing fixture
PLASTIFORM flexible magnets offer money-saving advantages in PM motor stator and brushless
motor rotor applications through automated magnetizing and insertion equipment.
Availability
The basic manufactured form is a roll of
sheet stock which can be easily fabricated into parts of the desired shape.
PLASTIFORM permanent magnets are
fabricated in accordance with customer
specification. The material can be
produced in virtually any size or shape,
including continuous length strips. It is
Sampling/prototyping/tooling
Samples of PLASTIFORM magnet
material 1030 for prototype evaluation
can be supplied for design feasibility
studies in standard, unmagnetized 3"x
24" strips. Such samples can be
machined, slit, punched or cut to the
final part dimension. Magnetized
samples and samples in non-standard
sizes can be provided on a lot charge
basis. Requests for quotes on nonstandard or magnetized sample parts
should be directed to your Arnold
Engineering sales representative.
Production tooling
Blanking and cut-off dies can be
produced to meet quantity requirements
for the final part dimension. Requests for
quotes on engineering costs associated
with tooling should be directed to your
Arnold Engineering sales representative
with a print of the part to be fabricated.
Property
Value* (Units)
1013
CGS/U.S.
Mechanical
Density1
Hardness2
Tensile Strength3
Elongation3
Flexibility4
0.134 lbs/in3
55 Shore D
Electrical
Volume Resistivity5
(50% R.H. )
Dielectric Strength6
(50% R.H.)
1030
SI
3.7 gm/cm3
55 Shore D
CGS/U.S.
SI
0.134 lbs/in3
55 Shore D
640 psi
18%
Pass 180
bending on
mandrel
equal to 7x
sample
thickness
3.7 gm/cm3
55 Shore D
400 N/cm2
1010 ohm-cm
1010 ohm-cm
1010 ohm-cm
250 volts/mil
10kV/mm
250 volts/mil
10kV/mm
Thermal
Thermal Coefficient of Thickness
Expansion (4% to 120%)
9.8 x 10 5
in/in per F
18 x 10 5
cm/cm per C
9.8 x 10 5
in/in per F
18 x 10 5
cm/cm per C
Maximum Continuous
Operating Temperature
250F
120C
250F
120C
*All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
Test Methods
1
4
ASTM D-297
Arnold Test Method
2
5
ASTM D-2240 (10 sec. delay)
ASTM D-257
3
6
ASTM D-412
ASTM D-149
Typical Tolerances
Designers can consider the following
tolerances to be typical of production
parts:
Tolerances
(inches)
Value* (Units)
CGS/U.S.
SI
1.4 x MGOe
2450 Gauss
245 mT
2200 Oersteds
175 kA/m
3000 Oersteds
239 kA/m
Recoil Permeability
1.04
1.04
Reversible Temperature
Coefficient of Induction (Br)
-0.105% per F
-0.19% per C
Reversible Temperature
Coefficient of Coercivity (Hci)
0.07% per F
0.13% per C
10000 Oersteds
800 kA/m
*All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
1013 and 1030 are fabrication type and extra-flexible type respectively.
Test Methods
1
Pole-coil Hysteresigraph
Magnetization requirementsassist in
defining requirements for production
magnetizers, poling fixtures, and
peripheral equipment in accordance with
specific application needs.
Size of
Magnet Part
(inches)
Magnetic optimizationprovide
magnetic circuit design suggestions to
achieve optimum product performance.
1010 ohm-cm
Property
Thickness
up to .060
.061 .200
.201 .300
.301 up
Standard
.005
.007
.010
.013
Premium
.002
.003
.005
Width
up to 1.250
1.251 1.949
over 1.950
.019
.019
1%
.012
1%
1%
Length
up to 1.200
1.201 2.000
2.001 4.000
4.001 13.000
13.001 20.000
20.001 up
.019
.019
1%
1%
1%
1%
.005
.010
.5%
.030*
.050
Motor Oil
Transmission Oil
Hydraulic Fluid
Kerosene
JP-4 Fuel
Gasoline
Heptane
Antifreeze
Clorox
Turpentine
Water
Detergents
Salt Spray
Aromatic Hydrocarbons
(Benzene, Toluene, Xylene)
Chlorinated Hydrocarbons
(Carbon Tetrachloride,
Trichloroethylene)
Ketones
Alcohols
Acids, Inorganic
(HCl, H2SO4)
Performance**
Good
Good
Good
Good
Fair
Fair
Fair
Good
Good
Good
Good
Good
Good
Poor
2500
INTRINSIC
2000
1500
B (Guass)
Chemical
(7 days immersion @ RT)
1000
Poor
NORMAL
500
Poor
Fair
Poor
0
5000
4500
4000
3500
3000
2500
2000
1500
1000
500
-H (Oersteds)
* All values shown are typical and are not intended for specification purposes. Specification values will be provided upon
request.
** Goodminor or no effect; up to 10% swell in thickness
Fairmoderate effect; 10-25% swell in thickness
Poorsevere effect; greater than 25% swell in thickness
* All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
PLASTIFORM 1.4
Br
2450 Gauss
Hc
2200 Oersteds
Hci
3250 Oersteds
BH max
1.40 MGOe
Dh
tm
The following chart suggests the magnet thicknesses that can be used in conjunction with various
motor housing inner diameters based on flexibility ratio. For example, a ratio of 7 indicates that a
magnet having a thickness range of .030" to .190" can be inserted into motor housing whose inner
diameter is at least 7 times greater than the magnet thickness. Further experimentation to determine
the practical ratio for a particular motor may be needed, depending upon the specific requirements of
the motor (Figure A).
Magnet
Thickness
Range
Ratio
Min. Motor
Housing
Inner
Diameter
.030" to .190"
.210" to 1.33"
.191" to .280"
8.5
1.63" to 2.38"
.281" to .375"
9.5
2.67" to 3.57"
Ratio
Design
Guide (K)
.030" to .190"
1.02
.191" to .280"
8.5
1.01
.281" to .375"
9.5
After the nominal length has been calculated, insertion tests should be run to verify that the calculated
length is correct or to determine that it needs to be modified. Then, two additional tests must be
made to confirm that the butt joint, where the two ends of the magnet strip meet after insertion,
allows a proper fit between magnet and housing.
This testing should be carried out as follows:
(A) Insert a magnet strip with the prescribed maximum thickness and maximum length into a motor
housing with minimum inner diameter.
(B) Insert a magnet strip with the prescribed minimum thickness and minimum length into a motor
housing with maximum inner diameter.
(C) Observe whether the following design goals have been met:
1. The magnet is in uniform contact with the inner diameter of the motor housing.
2. The magnet will not move in the housing.
Figure B shows the typical butt joint variation with an ideal or typical strip length resulting in a Y"
configuration.
Butt Joint
(Maximum Strip Length)
Butt Joint
Butt Joint
(Minimum Strip Length)
Butt Joint
(Typical Strip Length)
Dimensional Tolerances
PLASTIFORM fabricated magnets are produced
to the following dimensional tolerances:
Magnet
Dimension
Thickness
up to .060"
.061" .200"
.201" .300"
.301" up
Length
Up to 1.200"
1.201" to 2.000"
2.001" to 4.000"
4.001" to 13.000"
.002"
.003"
.005"
*
13.001" to 20.000"
20.001" and up
.005"
.010"
.5%
.030" ( .020" considered on an
individual application basis)
.050"
*
Width**
Up to 1.250"
1.251" to 1.949"
1.950" and up
.012"
1%
1%
* Provided on request
** Width is not generally considered to be a critical dimension in motor applications.
Closer width tolerance can be supplied upon request.
24"
Sheet
Stock
3"
n
ctio
ire
D
b
We
Cross-Web
4 to 5
Strip Former
D B
16
C
A
B
C
D
E
F
Minimum housing ID
Maximum housing OD
Magnet strip width + 1/16 in.
Hand inserter OD
Hand inserter height
Cross-section view of hand inserter
Plunger
A B
A
B
C
D
D
C
Minimum housing ID-.005 in.
A-(2 x maximum magnet thickness)
Distance from bottom of housing to top of magnet
Distance from top of magnet to top of hand inserter
PLASTIFORM 1016
Magnetic Strip and Sheeting
High energy level magnetic strip/sheet material
16 oz/in2 minimum holding force
Easily cut with scissors or knife
Holds and remains flexible at low temperatures
Available in two standard thicknesses and in widths from 1/4 in. to 24 in.
Custom slit widths on special quotation
Application
Temperature resistance
35
30
25
20
15
10
0
2
10
15
20
PLASTIFORM 1016
Magnetic Strip and Sheeting
Typical holding force with steel
backup* (0.010 in. steel)
Availability
35
Thickness:
Width:
3/8 in., 1/2 in., 3/4 in. and 1 in. (9.52, 12.7, 19 and 25 mm) are
standard widths. By special order, product is available in widths up
to 24 in. for 0.030 in. and 0.055 in., and up to 21 in. for 0.020 in.
Length:
Standard length is 100 feet (30.5 m). Special lengths are available
on special quotation.
Magnetization:
30
25
a
20
b
c
15
d
10
0
2
10
15
20
Definitions
Sliding force is defined as the force
(measured in oz/in2) required to move
one square inch of magnet, magnetically
attached to a polished steel plate, in a
direction parallel to the steel plate.
Magnet
Steel
F
Sliding Force
F
Steel
Holding Force
Sliding Force:
Temperature Range:
Flexibility:
0.030 in. (0.76 mm) thick Bend around 1/8 in. (3.2 mm) diameter
mandrel. 0.055 in. (1.4 mm) thick Bend around 1/4 in. (6.3 mm)
diameter mandrel.
Chemical Resistance:
Weather
Water
Ozone
Dilute Acids
Dilute Bases
Oils and Common Solvents
Excellent
Excellent
Excellent
Good
Good
Poor
Shelf Life:
* All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
PLASTIFORM 1033
Magnet Material
Energy product 1.6 MGOe flexible permanent magnet material
Ease of fabrication
Cost reduction
Multi-pole magnetization
Conformability to application
surfaces
Because of their flexibility, and a combination of hardness, tensile strength and
elongation, these flexible magnets adapt
to the shape of the surface to which they
are applied. In fractional horsepower
motor applications, this property ensures
a snug fit between magnet material and
housing, thereby reducing the air gap,
minimizing reluctance and maximizing
operational efficiency.
PLASTIFORM Quality
PLASTIFORM is manufactured using
up-to-date statistical methods and
documented statistical data. Customers
can rely on the proven quality of
PLASTIFORM bonded magnetic materials
for a variety of applications.
*Premium tolerance
PLASTIFORM 1033
Magnet Material
Continuous strip capability
The flexibility of this material allows it to
be supplied in continuous strips. This is
advantageous to the DC motor manufacturer both in terms of production cost
and performance. Motor strips can be cut
precisely to length, with all magnetic
poles exhibiting precisely the same
magnetic properties. In DC motors, this
condition enhances smooth motor
operation and minimizes brush wear.
Continuous strip capability is also advantageous to the manufacturer who
fabricates parts which may be used as
automated feed systems.
Applications
Because they successfully combine high
coercive force and residual induction with
flexibility and ease of fabrication,
PLASTIFORM magnets are now being
used in a wide range of electro-magnetic
circuit and equipment applications.
Typical applications include:
Stators for fractional horsepower
motors
Rotors for brushless DC motors
Reed relay actuation in switches,
keyboards, counters and sensors
Magnetic focusing systems for TV tubes
Multi-pole magnetic rotors for timer,
stepper and clock motors
High performance latches
Magnetic pick-ups for electronic ignition
and braking systems
Magnetic clutch in computer disc pack
drive
Snap-action devices for use as power
switch contacts
A primary reason for the material's acceptance into these markets has been its
adaptability to automated handling
systems.
The automated equipment used to insert
PLASTIFORM permanent magnets into
fractional horsepower motor and alternator housings can consist of the
following components:
1. The magnetizing fixture which is built
into the inserter machine to magnetize
the magnet prior to insertion
2. A power unit designed to provide electrical energy to the magnetizing fixture
PLASTIFORM flexible magnets offer money-saving advantages in PM motor stator and brushless
motor rotor applications through automated magnetizing and insertion equipment.
Availability
The basic manufactured form is a roll of
sheet stock which can be easily fabricated into parts of the desired shape.
PLASTIFORM permanent magnets are
fabricated in accordance with customer
specification. The material can be
produced in virtually any size or shape,
including continuous length strips. It is
Sampling/prototyping/tooling
Samples of PLASTIFORM magnet
material 1033 for prototype evaluation
can be supplied for design feasibility
studies in standard, unmagnetized 3"x
24" strips. Such samples can be
machined, slit, punched or cut to the
final part dimension. Magnetized
samples and samples in non-standard
sizes can be provided on a lot charge
basis. Requests for quotes on nonstandard or magnetized sample parts
should be directed to your Arnold
Engineering sales representative.
Production tooling
Blanking and cut-off dies can be
produced to meet quantity requirements
for the final part dimension. Requests for
quotes on engineering costs associated
with tooling should be directed to your
Arnold Engineering sales representative
with a print of the part to be fabricated.
PLASTIFORM 1033
Magnet Material
Typical Physical Properties @ 23C (73F)
Property
CGS/U.S.
Mechanical
Density1
Hardness2
Tensile Strength3
Elongation3
Flexibility4
Electrical
Volume Resistivity5
(50% R.H. )
Dielectric Strength6
(50% R.H.)
SI
0.137 lbs/in3
55 Shore D
640 psi
18%
Pass 180 bending on
mandrel equal to 7 times
the sample thickness
3.8 gm/cm3
55 Shore D
400 N/cm2
1010 ohm-cm
1010 ohm-cm
250 volts/mil
10kV/mm
Thermal
Thermal Coefficient of Thickness
Expansion (4% to 120%)
18 x 10 5 cm/cm per C
Maximum Continuous
Operating Temperature
250F
120C
*All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
Test Methods
1
4
ASTM D-297
Arnold Test Method
2
5
ASTM D-2240 (10 sec. delay)
ASTM D-257
3
6
ASTM D-412
ASTM D-149
Typical Tolerances
Designers can consider the following
tolerances to be typical of production
parts:
Value* (Units)
CGS/U.S.
1.6 MGOe
SI
2500 Gauss
255 mT
2300 Oersteds
183 kA/m
3600 Oersteds
287 kA/m
Recoil Permeability
1.04
1.04
Reversible Temperature
Coefficient of Induction (Br)
0.105% per F
0.19% per C
Reversible Temperature
Coefficient of Coercivity (Hci)
0.07% per F
0.13% per C
10000 Oersteds
800 kA/m
*All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
Test Methods
1
Pole-coil Hysteresigraph
Size of
Magnet Part
(inches)
Tolerances
(inches)
Thickness
up to .060
.061 .200
.201 .300
.301 up
Standard
.005
.007
.010
.013
Premium
.002
.003
.005
Width
up to 1.250
1.251 1.949
over 1.950
.019
.019
1%
.012
1%
1%
Length
up to 1.200
1.201 2.000
2.001 4.000
4.001 13.000
13.001 20.000
20.001 up
.019
.019
1%
1%
1%
1%
.005
.010
.5%
.030*
.050
PLASTIFORM 1033
Magnet Material
Typical Chemical Resistance
(Nitrile Rubber Binder)
Motor Oil
Transmission Oil
Hydraulic Fluid
Kerosene
JP-4 Fuel
Gasoline
Heptane
Antifreeze
Clorox
Turpentine
Water
Detergents
Salt Spray
Aromatic Hydrocarbons
(Benzene, Toluene, Xylene)
Chlorinated Hydrocarbons
(Carbon Tetrachloride,
Trichloroethylene)
Ketones
Alcohols
Acids, Inorganic
(HCl, H2SO4)
Performance**
Good
Good
Good
Good
Fair
Fair
Fair
Good
Good
Good
Good
Good
Good
Poor
2500
2000
INTRINSIC
1500
1000
Poor
NORMAL
500
Poor
Fair
Poor
0
4000
Not recommended for specification purposes. Product specifications will be provided upon request.
** Goodminor or no effect; up to 10% swell in thickness
Fairmoderate effect; 10-25% swell in thickness
Poorsevere effect; greater than 25% swell in thickness
B (Guass)
Chemical
(7 days immersion @ RT)
3500
3000
2500
2000
1500
1000
500
-H (Oersteds)
* All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
PLASTIFORM 1.6
Br
2550 Gauss
Hc
2300 Oersteds
Hci
3600 Oersteds
BH max
1.6 MGOe
PLASTIFORM 1035/1044/1046
Magnetic Plate Mounting System
Product Availability Guide
Magnetic plate backing is a special
adaptation of Arnold's flexible magnet
technology to the needs of today's flexographic and letterpress platemakers and
printers. Essentially, it involves the use of
magnetic force to attach printing plates
and rubber die blankets to steel-surfaced
press cylinders.
The following is a list of products that are
currently in the magnetic plate backing
line:
1035
The original magnetic plate backing
product, it consists of a .030" thick
magnetic layer with a .0025" thick layer
of steel foil covered with black, vulcanizing rubber adhesive. The product has a
composite thickness of .033". B-1035 is
sold in 18"-wide by 25'-long rolls.
1044
This versatile product is currently being
used in a wide variety of flexographic
applications. Corrugated printers have
found 1044 particularly beneficial in
mounting rubber and photopolymer box
dies, pre-mounts and pull bands on letter
1046
1046 was developed for platemakers and
printers who want all the advantages of a
magnetic mounting medium, plus the
option of grinding plates for caliper
control. It adapts well to the mounting of
photopolymer plates and to such new
mounting concepts as cushioned sticky
backs. The product consists of a .030"thick magnetic layer laminated to a layer
of .0025" steel foil, for a composite
thickness of .033". Sold in 18"-wide by
25'-long rolls, 1046 can be bonded to
plates with commercially available sticky
back adhesives, allowing it to be reused.
PLASTIFORM 1037
Permanent Magnet Material
Energy product 1.0 MGOe flexible permanent magnet product
Machinability permits simple and inexpensive shaping and assembly processing
Resilience prevents chipping, cracking or shattering
Close dimensional and magnetic tolerances allow substantial cost reductions
Description
PLASTIFORM Permanent Magnet
Materials are rubber barium ferrite
composites manufactured in sheets, strips
and individually cut pieces. Magnetic
properties are generated by preferentially
orienting ferromagnetic barium ferrite in
a stable binder. It is highly anisotropic and
possesses an unusually strong resistance
to demagnetization.
1037 material is a specially formulated
magnet product designed for use in latch
and similar applications. The high degree
of conformability exhibited by this
material allows it to match various pole
piece configurations and yields optimum
performance when sandwiched between
pole pieces.
Applications
Availability
PLASTIFORM Quality
PLASTIFORM is manufactured using upto-date statistical methods and
documented statistical data. Customers
can rely on the proven quality of
PLASTIFORM bonded magnetic
materials for a variety of applications.
Typical Values*
CGS/U.S. Units
SI Units
0.134 lbs/in3
3.71 g/cm3
55 Shore D
55 Shore D
640 psi
440 N/cm3
9.8 x 10 mil/mil
per F
18 x 10 5 cm/cm
per C
Maximum Continuous
Operating Temperature
200F
95C
*All values shown are typical and not intended for specification purposes. Specification values will be provided upon request.
Test Methods
1
ASTM D-297
2
ASTM D-2240
3
ASTM D-412
PLASTIFORM 1037
Magnet Material
Typical effect of temperature on
magnetic strength
In many applications, the operating
temperature of a magnet may be much
higher or lower than the average room
temperature. The effect of temperature
on the magnetic properties of
PLASTIFORM materials should be
considered where such conditions exist.
The residual magnetism (Br) of
PLASTIFORM magnets will decrease at
approximately 0.1% per degree
Fahrenheit above 70F (0.19% per
degree centigrade above 21.1C) and
will increase at 0.1% per degree
Fahrenheit below 70F (0.19% per
degree centigrade below 21.1C). The
magnet becomes weaker as the temperature is raised and stronger as the
temperature is lowered. The value of the
coercive force (Hc) also changes, but this
is significant only where a high demagnetizing field may be applied at low
temperatures, such as in DC motor applications.
Changes due to temperatures are not
permanent, but are reversible.
Consequently, the original magnetic
values are recovered upon return to
room temperature. Both ceramic and
flexible barium ferrite magnets are
subject to this effect.
Typical Values*
CGS/U.S. Units
SI Units
1.08 MGOe
8.6 kJ/m3
2150 Gauss
215 mT
1650 Oersteds
1315 kA/m
2150 Oersteds
1710 kA/m
1.08
1.08
0.105% per F
0.19% per C
0.12% per F
0.22% per C
10000 Oersteds
8000 kA/m
*All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
Test Method
1
Pole-coil Hysteresigraph
2500
2000
INTRINSIC
1500
B (Guass)
Technical assistance
NORMAL
1000
500
0
5000
4500
4000
3500
3000
2500
2000
1500
1000
500
-H (Oersteds)
*All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
Temperature resistance
PLASTIFORM Magnet Tape retains its
flexibility even in cold weather. The
product performs well, indoors or out, in
hot or cold climates. Extensive testing at
temperatures ranging from -40F to
160F (-40C to 71C) has documented
the broad range of capability of both the
adhesive and the magnetic holding force.
Application
PLASTIFORM Magnet Tape is easily cut
with a scissors or knife. Adhesive
mounting surfaces should be free of dirt,
grease, oil and solvent. Following
placement, the magnet tape should be
pressed down firmly with a roller.
30
20
10
0
2
10
15
20
Availability
35
Thickness:
Width:
1/2 in., 3/4 in. and 1 in. (12.7, 19 and 25 mm) are standard
widths. Product is available in widths up to 23 in. (584 mm)
on special order.
Length:
Magnetization:
30
25
a
20
b
c
15
d
10
0
2
10
15
20
Sliding Force:
Peel Adhesion:
Temperature Range:
Flexibility:
1316: 0.035 in. (0.89 mm) thickBend around 1/8 in. (3.2 mm)
diameter mandrel
1317: 0.060 in. (1.5 mm) thickBend around 1/4 in. (6.3 mm)
diameter mandrel
Chemical Resistance:
Weather
Water
Ozone
Dilute Acids
Dilute Bases
Oils and Common Solvents
Excellent
Excellent
Excellent
Good
Good
Poor
Shelf Life:
* All values shown are typical and are not intended for specification purposes. Specification values will be provided upon request.
Substate variation causes wide variations in adhesive values.
1022
Magnetic Viewer
A sealed device to inspect magnetized patterns
The 1022 Magnetic Viewer is supplied in a humidor jar designed to prolong the viewer life.
Viewer can be used to check magnetized pole patterns on a variety of configurations, such as the ring
magnet at the right.
FAX TO:
Customer Service
(402) 371-8495
PLASTIFORM DIVISION
P.O. Box 1567
1000 East Eisenhower Avenue
Norfolk, Nebraska 68702-1567
Company:
Inquiry No.:
Address:
Phone No.:
Fax No.:
E-mail:
Material:
Reply To:
Magnetized:
Direction of Orientation:
Delivery Requested:
Quantity/Estimated Annual Usage:
Print or sketch Please include description: all dimensions and tolerances; material; magnetic requirements
and material grade required; type of coating and color.
Warranty
Limited Warranty
and Exclusive Remedy
Flexmag Industries, Inc. warrants that
these products conform to industry
standards specific herein and will be free
from defects in material and
workmanship. THIS WARRANTY IS
EXPRESSLY GIVEN IN LIEU OF ANY AND
ALL OTHER EXPRESS OR IMPLIED
WARRANTIES, INCLUDING ANY IMPLIED
WARRANTY OF MERCHANTABILITY OR
FITNESS FOR A PARTICULAR PURPOSE,
AND IN LIEU OF ANY OTHER OBLIGATION ON THE PART OF THE FLEXMAG
INDUSTRIES, INC. Flexmag Industries, Inc.
will, at its option, repair or replace free
of charge (excluding all shipping and
handling costs) any products which
have not been subject to misuse,
abuse, or modification and which in its
sole determination were not manufactured in compliance with the warranty
given above.
THE REMEDY PROVIDED FOR HEREIN
SHALL BE THE EXCLUSIVE REMEDY FOR
ANY BREACH OF WARRANTY OR ANY
CLAIM ARISING IN ANY WAY OUT OF
THE MANUFACTURE, SALE, OR USE OF
THESE PRODUCTS. In no event shall
Flexmag Industries, Inc. and its parent
company, SPS Technologies, Inc., be
liable for consequential, incidental or any
other damages of any nature whatsoever except those specifically provided
herein for any breach of warranty or any
claim arising in any way out of the
manufacture, sale, or use of these
products. No other person is authorized
by Flexmag Industries, Inc. to give any
other warranty, written or oral,
pertaining to the products.
& RUSSIA
ASIA-PACIFIC
NORTH &
EUROPE, AFRICA
& RUSSIA
Swift Levick Magnets Ltd.
High Hazels Road
Barlborough Links, Barlborough
Derbyshire S43 4TZ United Kingdom
Tel: (+44) 1246-570500
Fax: (+44) 1246-573000
Email: slmsales@arnoldmagnetics.com
SOUTH AMERICA
Arnold
Linden Ave.
Rochester, NY 14625-2764 USA
Tel: 800-593-9127
International: (+1) 585-385-9010
Fax: (+1) 585-385-9017
Email: info@arnoldmagnetics.com
www.arnoldmagnetics.com