CHAPTER 13MATERIALS TESTINGAs you know by now, materials testing is a majorpart of an EAs responsibilities, especially for thoseEAs assigned to the Seabee construction battalions.The EA3 TRAMAN introduced you to the subject ofmaterials testing. In that TRAMAN, you learnedmany of the basic soils and concrete tests that an EAperforms. This chapter furthers your knowledge of thesubject area.In this chapter you will be introduced to severalsoils tests that the EA2 is expected to perform. Youwill study the constituent ingredients used in theproduction of concrete and will be introduced to manydifferent procedures for testing those ingredients. Youwill learn about the tests used for concrete mixturedesign purposes and for determining the strength ofconcrete. Also, you will study bituminous materials,learn about methods used to test those materials, andwill be introduced to various tests used in the designof bituminous pavement mixtures.Although some of the tests discussed in thischapter are covered in seemingly thorough detail, it isnot the intent of this TRAMAN to teach you how toperform the tests; instead, you will learn the purposeand principles of the tests, but only the fundamentalprocedures. For each test, the discussion identifies anauthoritative source that you should refer to fordetailed procedural guidance. Always use thosesources when actually performing any of the materialstests.SOILS TESTINGSoil compaction and density testing are two of themost common and important soils tests that an EAmust learn to perform. Those tests, as well as theCalifornia bearing ratio test and hydrometer analysis,are discussed in this section.COMPACTION TESTCompaction is the process of increasing the density(amount of solids per unit volume) of soil by mechanicalmeans to improve such soil properties as strength,permeability, and compressibility. Compaction is astandard procedure used in the construction of earthstructures, such as embankments, subgrades, andbases for road and airfield pavement.In the field, compaction is accomplished byrolling or tamping the soil with special constructionequipment. In the laboratory, compaction can beaccomplished by the impact of hammer blows,vibration, static loading, or any other method thatdoes not alter the water content of the soil. Usually,however, laboratory compaction is accomplished byplacing the soil into a cylinder of known volume anddropping a tamper of known weight onto the soil froma known height for a given number of blows. Theamount of work done to the soil per unit volume ofsoil is called compactive effort.For most soils and for a given compactive effort,the density of the soil will increase to a certain point,as the moisture content is increased. That point iscalled the maximum density. After that point, thedensity will start to decrease with any further increasein moisture content. The moisture content at whichmaximum density occurs is called the optimummoisture content (OMC). Each compactive effort fora given soil has its own OMC. As the compactiveeffort is increased, the maximum density generallyincreases and the OMC decreases.The following discussion briefly describes theequipment and procedures of the ASTM compaction testthat determines the OMC and the maximum densityobtainable under a given compactive effort. You can finda full discussion of the test in Materials Testing,NAVFAC MO-330.EquipmentThe principal equipment used for the compactiontest is the compaction cylinders and the compactiontamper that are shown in figure 13-1.There are two compaction cylinders. The smallercylinder (Proctor mold) is 4 inches in diameter and hasa volume of 1/30 (0.0333) cubic feet. It is used formaterials passing the No. 4 sieve. The Proctor mold is13-1
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