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100   $a20160829d2000      uy              
101 0 $aeng
135   $aur|||||||||||
181   $ctxt
182   $cc
183   $acr
200 00$aGeotechnics of High Water Content Materials
210 31$a[Place of publication not identified]$cAmerican Society for Testing & Materials$d2000
215   $a1 online resource (x, 392 pages)
225 1 $aASTM special technical publication ;$v1374
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a0-8031-2855-X 
330   $aReasonable estimates indicate that approximately a billion cubic meters of high water content soil-like wastes are produced annually worldwide, and a large portion of these are deposited hydraulically in diked impoundment areas, some of which are among the largest earth structures in the world. The major problems emanating from this disposal method are the difficulty in dewatering the wastes, their low strength and hydraulic conductivity, their high compressibility, their potential to contaminate the groundwater, the stability of the confining dikes, and the ultimate reclamation of the disturbed land. Following a brief explanation of how many of these wastes are generated, quantitative values for key engineering properties are summarized and compared for a wide variety of waste materials and some reference soils. Then, many concepts that have been applied with success will be presented together with the advantages each offers, the difficulties involved in using it, and the limitations in our knowledge. Discussed briefly will be state-of-practice developments in mathematical modeling, laboratory testing and associated interpretations, and material property formulations.
410  0$aASTM special technical publication ;$v1374.
606   $aSoil mechanics
606   $aSoil stabilization
615  0$aSoil mechanics.
615  0$aSoil stabilization.
676   $a624.1/5136
702   $aFox$b Patrick J
702   $aEdil$b Tuncer B
712 02$aASTM Committee D-18 on Soil and Rock.
801  0$bPQKB
906   $aBOOK
912   $a9910164286103321
996   $aGeotechnics of High Water Content Materials$91932750
997   $aUNINA