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The specific gravity and absorption test (ASTM C128) was performed on fine aggregate and the following data were obtained:
Mass of SSD sand = 500.0 g
Mass of pycnometer with water only = 623.0 g
Mass of pycnometer with sand and water = 938.2 g
Mass of dry sand = 495.5 g
Calculate the specific gravity values (dry bulk, SSD, and apparent) and the absorption of the fine aggregate.
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- A sieve analysis test for fine aggregates was performed on a sample of fine aggregates and produced the following results below. Determine the following: a. Percent passing through each sieve (Tabulation) b. Plot of the percent finer in the Semi-Log Gradation Chart c. Maximum Aggregate Size of the Sample (mm) d. Nominal Maximum Aggregate size of the sample e. Fineness Modulusarrow_forward7 The specific gravity and absorption test (ASTM C128) was performed on fine aggregate and the following data were obtained:Mass of SSD sand = 500.0 gMass of pycnometer with water only = 623.0 gMass of pycnometer with sand and water = 938.2 gMass of dry sand = 495.5 gCalculate the specific gravity values (dry bulk, SSD, and apparent) and theabsorption of the fine aggregatearrow_forwardQuestion 2 Calculate the moisture content and absorption capacity for the following three aggregate samples. Report the moisture state of each aggregate. a) An aggregate sample from a stockpile A has a mass of 19.00 lb. When oven-dried, it has a mass of 17.98 lb. When brought to a saturated surface dry state it has a mass of 19.00 lb. b) An aggregate sample from a stockpile B has a mass of 5.08 kg. When oven-dried, it has a mass of 5.01 kg. When brought to a saturated surface dry state it has a mass of 5.13 kg. c) An aggregate sample from a stockpile C has a mass of 53.98 lb. When oven-dried, it has a mass of 53.22 lb. When brought to a saturated surface dry state it has a mass of 53.54 Ib.arrow_forward
- TEST PROCEDURE: 1. Dry the aggregate test sample to a constant weight at a temperature of 110 ± 5°C, then cool to room temperature. 2. Select suitable sieve sizes to furnish the information required by the specifications covering the material to be tested. Common sieves in millimeters are 37.5, 25, 19, 12.5, 9.5, 4.75, 2.36, 1.18, 0.6, 0.3, 0.15, and 0.075 mm (11 2 in., 1 in., 3 4 in., 1 2 in., 3 8 in., No. 4, No. 8, No. 16, No. 30, No. 50, No. 100, and No. 200). 3. Nest the sieves in order of decreasing size of opening, and place the aggregate sample on the top sieve. 4. Agitate the sieves by hand or by mechanical apparatus for a sufficient period. The criterion for sieving time is that, after completion, not more than 1% of the residue on any individual sieve will pass that sieve during 1 minute of continuous hand sieving. 5. Determine the weight of each size increment. 6. The total weight of the material after sieving should be compared with the original weight of the sample placed…arrow_forward5) Determine the apparent specifie gravity (G.), dry bulk specific gravity (Guon), SSD bulk specific gravity (Ghessn) and absorption capacity of a fine aggregate sample using the folowing data: • Weight of sample in dry condition: 485 g Weight of sample in SSD condition: 505 g • Weight of pyenometer with the sample and water: 1015 g • Weight of pycnometer with water: 700 garrow_forwardSpecific Gravity and absorption test is done in the materials lab on a sample of coarse aggregate and the following data is obtained: Dry weight: 1002.3 g SSD weight: 1032.4 g Submerged weight: 607.5 g Calculate the specific gravity values (dry, SSD and apparent) and the absorption of the coarse aggregate.arrow_forward
- I 1. Determine the apparent specific gravity (G.), dry bulk specific gravity (Gs(OD)), SSD bulk specific gravity (Gt(ssD) and absorption capacity of a fine aggregate sample using the following data: Weight of sample in dry condition: 485 g • Weight of sample in SSD condition: 505 g • Weight of pycnometer with the sample and water: 1015 g Weight of pycnometer with water: 700 garrow_forwardFine aggregate sample was tested to find its physical properties. The test results were as follows: Bulk specific gravity= 2.42, Apparent specific gravity= 2.58, mass of the vessel full of water = 1350 gm, mass of the vessel plus sand and topped up with water= 1600 gm, mass in wet condition 541 gm. Calculate 1- absorption% 2- moisture content% 3- Bulk density 4- Apparent densityarrow_forwardExample 2: Specific gravity test was conducted for a fine aggregate. If the following data was obtained during the test: - the saturated surface dry weight of the sample = 500 g. %3D - Weight of pycnometer full of water= 750 g - Weight of pycnometer and sample and water= 1050 g. - Oven dry weight of the sample is 475 g. for this aggregate, FIND - The apparent specific gravity. - The bulk specific gravity on an ssd basis. Percentage of absorption.arrow_forward
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