Soil Mechanic Laboratory Assist Lec Lubna Mohammed Abd
Soil Mechanic Laboratory Assist. Lec. Lubna Mohammed Abd Environmental Engineering Department Al- Mustansiriyah University Determining Moisture-Unit Weight Relations of Soil (Compaction Test) Sources: Soil Mechanics – Laboratory Manual, B. M. DAS (Chapters 6, 7) Matthew A. Dettman, P. E: http: //www. wku. edu/~matthew. dettman/
Class Outlines n Standard Proctor Compaction Test n Effect of Compaction Energy n Modified Proctor Compaction Test
Compaction n In construction of highway embankments, earth dams and many other engineering structures, loose soils must be compacted to improve their strength by increasing their unit weight n Compaction - Densification of soil by removing air voids using mechanical equipment n The degree of compaction is measured in terms of its dry unit weight
Compaction Effect Air Water Solids Loose soil Compacted soil
Compaction Advantages n As compaction increases, the following occurs: Increase soil strength n Increase bearing capacity n Decrease potential for settlement n Control undesirable volume changes n Reduction in hydraulic conductivity n
Effect of Water on Compaction n In soils, compaction is a function of water content n Water added to the soil during compaction acts as a softening agent on the soil particles n n Consider 0% moisture - only compacts so little Add a little water - compacts better A little more water - a little better compaction Even more water – soil begins to flow n What is better compaction? n n The dry unit weight (gd) increases as the moisture content increases TO A POINT Beyond a certain moisture content, any increase in moisture content tends to reduce the dry unit weight
Dry Density (pcf) Relationship between Moisture Content and Dry Density Moisture Content (%)
Compaction Curve n Compaction curve plotted gd vs. w n The peak of the curve is the Maximum Compaction (gd max) at Optimum Moisture Content (wopt )
Standard Proctor Compaction Test n The standard was originally developed to simulate field compaction in the lab n Purpose: Find the optimum moisture content at which the maximum dry unit weight is attained n ASTM D 698 n Equipments; n Standard Proctor 3 n 1/30 ft mold n 5. 5 lb hammer n 12” drop n 3 layers of soil n 25 blows / layer
Compaction - Lab Equipment
Procedure 1. 2. 3. 4. 5. 6. 7. 8. Obtain 10 lbs of soil passing No. 4 sieve Record the weight of the Proctor mold without the base and the (collar) extension, the volume of which is 1/30 ft 3. Assemble the compaction apparatus. Place the soil in the mold in 3 layers and compact using 25 well distributed blows of the Proctor hammer. Detach the collar without disturbing the soil inside the mold Remove the base and determine the weight of the mold and compacted soil. Remove the compacted soil from the mold and take a sample (20 -30 grams) of soil and find the moisture content Place the remainder of the molded soil into the pan, break it down, and thoroughly remix it with the other soil, plus 100 additional grams of water.
Compaction - Procedure 1 3 2 4 5
In your Report - Results n Plot of dry unit weight vs moisture content n Find gd and wopt n Plot Zero-Air-Void unit weight (max) (only S=100%)
Standard Proctor Test Modified Proctor Test
Modified Proctor Test n The modified was developed to simulate larger compaction effort for more serious loads and bigger equipment n ASTM D 698 n Modified Proctor 1/30 ft 3 mold n 10 lb hammer n 18” drop n 5 layers of soil n 25 blows / layer n
- Slides: 15