Permanent deformation characteristics of saturated sand under cyclic loading

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Title:	Permanent deformation characteristics of saturated sand under cyclic loading
Authors:	莊長賢;Cai, Yuanqiang;Sun, Qi;Guo, Lin;Juang, C. Hsein;Wang, Jun
Contributors:	工學院土木工程學系
Keywords:	appareil de cylindre creux;chargement cyclique;Confining;cyclic loading;Cylinders;Deformation;d�formation permanente;Formulations;Geotechnics;hollow cylinder apparatus;Mechanical properties;Pavement live loads;permanent deformation;principal stress rotation;rotation des contraintes principales;sable;Sand;Sands;Shear stress;Stresses
Date:	2015-10-06
Issue Date:	2026-04-21 13:58:44 (UTC+8)
Publisher:	National Research Council of Canada;NRC Research Press
Abstract:	摘要： The loading path involving principal stress rotation (PSR) during shear is an important phenomenon encountered in many field conditions. Typically for traffic loading, both the magnitude and direction of principal stresses may vary with time due to the motion of vehicles, and the stress path can be mimicked by a heart shape in the deviatoric stress space. Conventional triaxial tests are not suitable to recreate this type of stress path in that no torsional shear stress can be applied on the test samples. To overcome this limitation, a series of tests using a hollow cylinder apparatus were conducted on sand to investigate the permanent deformation characteristics under drained conditions with different levels of confining pressure (σ c ), cyclic vertical stress ratio (CVSR), and cyclic torsional stress ratio (η). The results clearly show an increase in the permanent deformation with η, indicating that the PSR effect on permanent deformation cannot be ignored. Both σ c and CVSR were found to also affect permanent deformation, which was more pronounced when PSR was coupled into the test. A five-parameter formulation that accounted for the effect of confining pressure, deviatoric stress, torsional shear stress, and number of loading cycles was subsequently established to analyze the permanent strain. The formulation coefficients were first determined and then used to explain the effects of stress variables on the permanent deformation. Validation studies were performed to address the adequacy of the formulation to predict permanent deformation. 出版者： NRC Research Press 出版日期： 2015-06-01 出處： Canadian geotechnical journal, 2015-06, Vol.52 (6), p.795-807 版權： COPYRIGHT 2015 NRC Research Press 識別號： ISSN: 0008-3674 識別號： EISSN: 1208-6010 識別號： DOI: 10.1139/cgj-2014-0341
Appears in Collections:	[Department of Civil Engineering] journal & Dissertation

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