Influence of Particle Breakage on Critical State Line of Rockfill Material

AbstractThe influences of particle breakage on the position of the critical state line (CSL) were systematically investigated in this paper through a series of large-scale triaxial compression tests on Tacheng rockfill material (TRM). It was found that the critical-state stress ratio of TRM (i.e., t...

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Veröffentlicht in:	International journal of geomechanics 2016-02, Vol.16 (1)
Hauptverfasser:	Xiao, Yang, Liu, Hanlong, Ding, Xuanming, Chen, Yumin, Jiang, Jingshan, Wengang Zhang
Format:	Artikel
Sprache:	eng
Schlagworte:	Breakage Constants Rockfill Sand Stress ratio Technical Papers Translations Triaxial compression tests Void ratio
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creator	Xiao, Yang Liu, Hanlong Ding, Xuanming Chen, Yumin Jiang, Jingshan Wengang Zhang
description	AbstractThe influences of particle breakage on the position of the critical state line (CSL) were systematically investigated in this paper through a series of large-scale triaxial compression tests on Tacheng rockfill material (TRM). It was found that the critical-state stress ratio of TRM (i.e., the gradient of the CSL in the p−q space) was approximately regarded as a constant. In the e−logp space, the CSL of TRM descended with a decrease in the initial void ratio, whereas the gradient of the CSL was constant. A procedure was established for evaluating the critical state point at a same particle breakage, which comprised the breakage critical state line (BCSL). An increase of the particle breakage led to not only a vertical translation but also a rotation on the BCSL of TRM in the e−logp space, which was similar to the observation of Dog’s Bay sand. Consequently, the initial gradation (or the corresponding initial void ratio) was the dominant factor that affected the position of the CSL of TRM in the e−logp space.
doi_str_mv	10.1061/(ASCE)GM.1943-5622.0000538
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It was found that the critical-state stress ratio of TRM (i.e., the gradient of the CSL in the p−q space) was approximately regarded as a constant. In the e−logp space, the CSL of TRM descended with a decrease in the initial void ratio, whereas the gradient of the CSL was constant. A procedure was established for evaluating the critical state point at a same particle breakage, which comprised the breakage critical state line (BCSL). An increase of the particle breakage led to not only a vertical translation but also a rotation on the BCSL of TRM in the e−logp space, which was similar to the observation of Dog’s Bay sand. Consequently, the initial gradation (or the corresponding initial void ratio) was the dominant factor that affected the position of the CSL of TRM in the e−logp space.</abstract><pub>American Society of Civil Engineers</pub><doi>10.1061/(ASCE)GM.1943-5622.0000538</doi></addata></record>
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source	American Society of Civil Engineers:NESLI2:Journals:2014
subjects	Breakage Constants Rockfill Sand Stress ratio Technical Papers Translations Triaxial compression tests Void ratio
title	Influence of Particle Breakage on Critical State Line of Rockfill Material
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