›› 2005, Vol. 26 ›› Issue (3): 488-493.

• Fundamental Theroy and Experimental Research • Previous Articles     Next Articles

Necessity and means in research on soil coupled heat-moisture-stress issues

WANG Tie-hang1,2, LI Ning2, XIE Ding-yi2   

  1. 1.College of Civil Engineering, Xi’an University of Architecture and technology, Xi’an 710055, China; 2.Research Institute of Geotechnical Engineering, Xi’an University of Technology, Xi’an 710048, China
  • Received:2003-12-10 Online:2005-03-10 Published:2013-11-21

PDF (PC)

1788

Abstract: Taking the influence each other among the moisture field, thermal field, stress and deformation field of soil body into account, the necessity of research on coupled heat-moisture-stress issues about loess, amargosite, frozen soil and pedology is explored. Then the research progress in the issues is reviewed and summarized. After that based on the analysis of the research work up to now, the weakness of mechanism research of soil coupled heat-moisture-stress issues is revealed; and it is pointed that defining the coupled parameters should be the heart of the matter.

Key words: coupled heat-moisture-stress, loess, frozen soil, amargosite, pedology

CLC Number: 

  • U 416.1
  • Please send e-mail to pingzhou3@126.com if you would like to read full paper in English for free. Parts of our published papers have English translations.
[1] SHAO Sheng-jun, CHEN Fei, DENG Guo-hua, . Seismic passive earth pressure against the retaining wall of structural loess based on plane strain unified strength formula [J]. Rock and Soil Mechanics, 2019, 40(4): 1255-1262.
[2] WANG Tie-hang, JIN Xin, LUO Yang, ZHANG Song-lin. A method for evaluation of loess collapse potential of unloading [J]. Rock and Soil Mechanics, 2019, 40(4): 1281-1290.
[3] WANG Juan-juan, HAO Yan-zhou, WANG Tie-hang. Experimental study of structural characteristics of unsaturated compacted loess [J]. Rock and Soil Mechanics, 2019, 40(4): 1351-1357.
[4] CHEN Wen-wu, LIU Wei, WANG Juan, SUN Guan-ping, WU Wei-jiang, . Relationship between saturation degree and B value for loess [J]. Rock and Soil Mechanics, 2019, 40(3): 834-842.
[5] ZHANG Yu-wei, WENG Xiao-lin, SONG Zhan-ping, XIE Yong-li, . A modified Cam-clay model for structural and anisotropic loess [J]. Rock and Soil Mechanics, 2019, 40(3): 1030-1038.
[6] WANG Li-qin, SHAO Sheng-jun, WANG Shuai, ZHAO Cong, SHI Peng-xin, ZHOU Biao, . Compression curve characteristic of undisturbed loess [J]. Rock and Soil Mechanics, 2019, 40(3): 1076-1084.
[7] LI Xin, LIU En-long, HOU Feng, . A creep constitutive model for frozen soils considering the influence of temperature [J]. Rock and Soil Mechanics, 2019, 40(2): 624-631.
[8] YAO Zhi-hua, CHEN Zheng-han, FANG Xiang-wei, HUANG Xue-feng, . Elastoplastic damage seepage-consolidation coupled model of unsaturated intact loess and its application [J]. Rock and Soil Mechanics, 2019, 40(1): 216-226.
[9] DU Wei-fei, ZHENG Jian-guo, LIU Zheng-hong, ZHANG Ji-wen, YU Yong-tang, . Settlement behavior of high loess-filled foundation and impact from exhaust conditions [J]. Rock and Soil Mechanics, 2019, 40(1): 325-331.
[10] ZHANG Lei, LIU Hui, WANG Tie-hang. Shear tests on loess-concrete interface under consolidation and unconsolidation conditions [J]. Rock and Soil Mechanics, 2018, 39(S2): 238-244.
[11] CHEN Rui-feng, TIAN Gao-yuan, MI Dong-yun, DONG Xiao-qiang,. Study of basic engineering properties of loess modified by red mud [J]. , 2018, 39(S1): 89-97.
[12] WANG Li-qin, SHAO Sheng-jun, ZHAO Cong, LU Zhong-gang,. Effect of initial structural property of loess on its compressive yield [J]. , 2018, 39(9): 3223-3228.
[13] CHOU Ya-ling, JIA Shu-sheng, ZHANG Qing-hai, CAO Wei, SEHNG Yu,. The influence of freeze-thaw action on loess collapsibility coefficient considering soil structure [J]. , 2018, 39(8): 2715-2722.
[14] ZHANG Ze-lin, WU Shu-ren, WANG Tao, TANG Hui-ming, LIANG Chang-yu, . Influence of seismic wave amplitude on dynamic response of loess-mudstone slope [J]. Rock and Soil Mechanics, 2018, 39(7): 2403-2412.
[15] SHI Quan-bin, YANG Ping, YU Ke, TANG Guo-yi,. Sub peak adfreezing strength at the interface between frozen soil and structures [J]. , 2018, 39(6): 2025-2034.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] HE Fa-guo, CHEN Wen-wu, HAN Wen-feng, ZHANG Jing-ke. Correlation of microstructure indices and performance of sand solidified with polymer material SH[J]. , 2009, 30(12): 3803 -3807 .
[2] LEI Yong-sheng. Research on protective measures of City Wall and Bell Tower due to underneath crossing Xi’an Metro Line No.2[J]. , 2010, 31(1): 223 -228 .
[3] SHANG Shou-ping, SUI Xiao-xi, ZHOU Zhi-jin, LIU Fang-cheng, XIONG Wei. Study of dynamic shear modulus of granulated rubber-sand mixture[J]. , 2010, 31(2): 377 -381 .
[4] XIAO Zhong, WANG Yuan-zhan, JI Chun-ning, HUANG Tai-kun, SHAN Xu. Stability analysis of large cylindrical structure for strengthening soft foundation under wave load[J]. , 2010, 31(8): 2648 -2654 .
[5] LI Feng, WANG Xiao-rui, LUO Xiao-hui, GUO Yuan-cheng. Assessment methods of chance constrained on bottom stability of foundation pit[J]. , 2010, 31(12): 3867 -3874 .
[6] ZHAO Hong-bo, RU Zhong-liang, ZHANG Shi-ke. Application of support vector machine to reliability analysis of underground engineering[J]. , 2009, 30(2): 526 -530 .
[7] SHI Xiang-chao, MENG Ying-feng, LI Gao. Comparative analyses of several rock strength criteria[J]. , 2011, 32(S1): 209 -216 .
[8] DING Xuan-ming, LIU Han-long. Comparative analysis of dynamic responses of cast-in-place concrete large-diameter pipe pile and solid pile in homogeneous soil[J]. , 2011, 32(S1): 260 -264 .
[9] QIAN Yue-hong , LI Jie , CHEN Wen-tao , LI Wen-pei. Investigation of characteristics of failure nearby deep tunnel considering unloading time[J]. , 2011, 32(5): 1347 -1352 .
[10] LI Jian-jun , SHAO Sheng-jun , WANG Chao. Fault foundation and its reinforcing measures[J]. , 2009, 30(S2): 344 -348 .
Copyright © Rock and Soil Mechanics, All Rights Reserved.
Tel: 027-87198484, 87199252, 87199253, 87198752 E-mail: ytlx@whrsm.ac.cn
Powered by Beijing Magtech Co. Ltd