Spec Grav, Abs, Unit Weight
Spec Grav, Abs, Unit Weight
Spec Grav, Abs, Unit Weight
31
MOHAWK COLLEGE OF APPLIED ARTS AND TECHNOLOGY
BUILDING AND CONSTRUCTION SCIENCES DEPARTMENT
INTRODUCTION
The specific gravity of coarse and fine aggregates and the dry rodded density of
the coarse aggregate are needed for the ACI (American Concrete Institute) mix design
method. The absorption capacity and moisture conditions are needed for corrections in
all mixes. In this laboratory procedure you will make these determinations and then use
them in the later laboratory work.
EQUIPMENT
PROCEDURE
1. Fill the pycnometer with water at 23 ± 1.7° C to the 500 ml mark and weigh to the
nearest 0.1 g ensuring the outer surface of the pycnometer is dry.
2. Spread approximately 1000 g of the saturated sand on a glass plate and direct the
air current from the electric heater on to it. Stir the sample frequently to ensure
uniform drying.
1
3. When the sand approaches a free flowing condition place the sand loosely in the
conical mold and lightly tamp the surface 25 times with the 25 mm diameter
tamper. Lift the mold vertically off the sand. If the sand retains its shape, free
moisture is present and drying must be continued.
4. When the sand slumps on removal of the cone, it indicates that a saturated surface
dry condition has been reached. Immediately place 500.0 g of the SSD sand into
the empty pycnometer and fill with water to approximately 90% of its capacity
(about 2 cm below the neck). Connect the pycnometer to a vacuum for five
minutes. Then fill to the calibration line and, if necessary, adjust the temperature
to 23 ± 1.7° C by placing the pycnometer under a running tap. Weigh to the nearest
0.1 g ensuring the outer surface of the pycnometer is dry.
5. Wash all of the fine aggregate from the pycnometer into a tared container (a
container which has been previously weighed and the weight recorded) and place in
the oven to dry with an oven tag clipped to the outer wall. Overnight (18 hours) is
usually sufficient. When dry weigh again to the nearest 0.1 g.
1. Obtain about 1 kg of damp sand from the bin and split or quarter it into two halves.
Place one of the halves into a tared container and weigh to the nearest 0.1 g.
2. Put enough water, at 23 ± 1.7o C into your pycnometer to cover the sample and then
put the sample into the pycnometer.
3. Connect to a vacuum for 5 minutes.
4. Fill the pycnometer to the calibration mark with water at 23 ± 1.7o C and weigh to
the nearest 0.1 g ensuring the outer surface of the pycnometer is dry.
1. Select about 3 kg of saturated coarse aggregate and dry the sample to an SSD
condition by rolling it on a cloth until all visible films of moisture are removed.
Weigh the sample in the SSD condition.
2. Immediately place the sample in a wire basket and obtain its weight in water in
kilograms to the nearest gram. Shake the basket while immersed to dislodge all
entrapped air.
2
3. Place the sample in a tared container, dry in the oven and obtain its weight in
kilograms to the nearest gram.
1. From below the surface of the bin take a sample of about 6 kg and split or quarter
to about 1.5 kg.
2. Weigh the sample in kg to the nearest gram, dry in the oven and weigh again in kg
to the nearest gram.
1. Using the ⅓ ft3 (0.00944 m3) container, fill one third full with air dry coarse
aggregate, level with your fingers and rod 25 times with the 16 mm diameter
tamping rod.
2. Repeat the above with the container ⅔ full and then overflowing.
3. Strike off level and weigh the aggregate in kg to the nearest gram. The contents
only are weighed since the mass of the container and aggregate will exceed the
capacity of the balance.
CALCULATIONS
500
GSSD =
B + 500 - C
where
B = Mass of the pycnometer + water (g)
3
C = Mass of pycnometer + sample + water (g)
A
GASTM =
B + 500 - C
where
A = Oven dry mass of the sample (g)
1. Calculate the amount of water displaced and using it calculate the free moisture
as a percent by weight of the SSD mass as follows:
Vs = Mc + Ms − M
Ms
Vd =
GSSD
Vs - Vd
P= × 100%
Ms - Vs
where
Vs = mass of water displaced by the sample (g)
Vd = mass of water that would be displaced by the SSD sample (g)
Mc = mass of pycnometer + water (g)
Ms = mass of sample (g)
M = mass of pycnometer + sample + water (g)
P = free moisture as a percent of SSD mass
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C : Specific Gravity and Absorption of Coarse Aggregate
B
GSSD =
B-C
where
B = mass of SSD sample in air (kg)
C = mass of SSD sample in water (kg)
B−A
Abs = × 100%
A
where
A = Mass of Oven dried sample (kg)
B = Mass of SSD sample in air (kg)
C = Mass of SSD sample in water (kg)
where
M = SSD mass (g)
5
Ms = oven dried mass (g)
w = percent moisture content (%)
2. Calculate the effective absorption, Ed as a percent of oven dry mass as follows:
Ed = Abs − w
where
Abs = percent absorption obtained in test C, step 4
REPORT
1. The report should include a title page, the completed Report Form, the
completed data sheet No. 31 and a detailed documentation of the calculations.