Advanced Search
  • 全国中文核心期刊
  • 中国科技核心期刊
  • 美国工程索引(EI)收录期刊
  • Scopus数据库收录期刊
Volume 34 Issue 4
Turn off MathJax
Article Contents
Abstract
References
MA Wei, WANG Da-yan. Studies on frozen soil mechanics in China in past 50 years and their prospect[J]. Chinese Journal of Geotechnical Engineering, 2012, 34(4): 625-640.
Citation: MA Wei, WANG Da-yan. Studies on frozen soil mechanics in China in past 50 years and their prospect[J]. Chinese Journal of Geotechnical Engineering, 2012, 34(4): 625-640.
shu

Studies on frozen soil mechanics in China in past 50 years and their prospect

  • State Key Laboratory of Frozen Soil Engineering, Cold and Arid Regions Environmental and Engineering Research Institute, CAS, Lanzhou 730000, China

More Information
  • Received Date: January 24, 2011
  • Published Date: April 19, 2012
    Graphical Abstract
    • Abstract
  • China has a land area of 2.15 million km2 covered by permafrost and is named as a third permafrost giant in the world, but it is relative later to systematically study the permafrost, especially the frozen soil mechanics. Since the 1950s, many studies have been carried out to investigate the characteristic of frozen soils for the economic and social development in permafrost regions. The achievements of the frozen soil mechanics in the stress-strain relationship, constitutive modeling, thermal-moisture process, frozen soil-structure interaction and test methods in China are reviewed, and the development trend for studies on the frozen soil mechanics study is predicted according to its subject characteristics, construction demand and the development trend of related subjects.
    • FullText(HTML)
    • References (107)
  • [1]
    周幼吾 , 郭东信 , 邱国庆 , 等 . 中国冻土 [M]. 北京 : 科学出版社 , 2000. (ZHOU You-wu, GUO Dong-xin, QIU Guo-qing, et al. Geocryology in China[M]. Beijing: Science Press, 2000. (in Chinese))
    [2]
    中国地理学会 . 第一届全国冻土学术会议论文集 [M]. 北京 : 科学出版社 , 1978. (The Geographical Society of China. Proceedings of the first Chinese conference on glaciology and geocryology[M]. Beijing: Science Press, 1978. (in Chinese))
    [3]
    中国地理学会 . 第二届全国冻土学术会议论文集 [M]. 兰州 : 甘肃人民出版社 , 1982. (The Geographical Society of China. Proceedings of the second Chinese conference on glaciology and geocryology[M]. Lanzhou: Gansu People’s Press, 1982. (in Chinese))
    [4]
    中国科学院兰州冰川冻土研究所 . 青藏冻土研究论文集 [M]. 北京 : 科学出版社 . 1983. (Lanzhou Institute of Glaciology and Cryopedology, CAS. Professional papers of the study on Qinghai-Xizang plateau permafrost[M]. Beijing: Science Press, 1983. (in Chinese))
    [5]
    中国科学院兰州冰川冻土研究所 . 中国地理学会冰川冻土学术论文集 [M]. 北京 : 科学出版社 , 1982. (Lanzhou Institute of Glaciology and Cryopedology, CAS. Proceedings of the chinese conference on glaciology and geocryology[M]. Beijing: Science Press, 1982. (in Chinese))
    [6]
    中国科学院兰州冰川冻土研究所 , 煤炭工业部特殊凿井公司冻土壁研究组 . 冻结凿井冻土壁的工程性质 [M]. 兰州 : 兰州大学出版社 . 1988. (Lanzhou Institute of Glaciology and Cryopedology, Chinese Academy of Sciences & Frozen Soil Wall Research Group of Special Shaft Sinking Company, Ministry of Coal Industry. Engineering behaviour of frozen wall in artificial freezing sinking[M]. Lanzhou: Lanzhou University Press, 1988. (in Chinese))
    [7]
    吴紫汪 , 程国栋 , 朱林楠 , 等 . 冻土路基工程 [M]. 兰州大学出版社 . 1988. (WU Zi-wang, CHENG Guo-dong, ZHU Lin-nan, et al. Embankment engineering of frozen soils[M]. Lanzhou: Lanzhou University Press, 1988. (in Chinese))
    [8]
    朱元林 , 何 平 , 张家懿 , 等 . 冻土在振动荷载作用下的三轴蠕变模型 [J]. 自然科学进展 , 1998, 8 (1): 60 – 62. (ZHU Yuan-lin, HE Ping, ZHANG Jia-yi, et al. Triaxial creep model of frozen soil under dynamic loading[J]. Progress in Natural Science, 1998, 8 (1): 60 – 62. (in Chinese))
    [9]
    朱元林 , 何 平 , 张家懿 , 等 . 围压对冻结粉土在振动荷载作用下蠕变性能的影响 [J]. 冰川冻土 , 1995, 17 ( 增刊 ): 20 – 25. (ZHU Yuan-lin, HE Ping, ZHANG Jia-yi, et al. Effect of confine pressure on creep behavior of frozen silt under dynamic loading[J]. Journal of Glaciology and Geocryology, 1995, 17 (S0): 20 – 25. (in Chinese))
    [10]
    吴紫汪 , 刘永智 , 谢先德 . 冻土承载力原位试验研究 [M]// 青藏冻土研究论文集 . 北京 : 科学出版社 , 1983: 112 – 119. (WU Zi-wang, LIU Yong-zhi, XIE Xian-de. Field experiments of bearing capacity of frozen soils[M]// Professional Papers on Permafrost Study of Qinghai-Xizang Plateau. Beijing: Science Press, 1983: 112 – 119. (in Chinese))
    [11]
    吴紫汪 , 张家懿 , 朱元林 . 冻土长期强度确定方法的实验研究 [M]// 青藏冻土研究论文集 . 北京 : 科学出版社 , 1983: 120 – 123. (WU Zi-wang, ZHANG Jia-yi, ZHU Yuan-lin. Experimental research on determination of the long-term strength of frozen soils[M]// Professional Papers on Permafrost Studys of Qinghai-Xizang Plateau. Beijing: Science Press, 1983: 120 – 123. (in Chinese))
    [12]
    吴紫汪 , 马 巍 , 常小晓 , 等 . 冻结黄土的应力松弛 [J]. 冰川冻土 , 1993, 15 (1): 125 – 128. (WU Zi-wang, MA Wei, CHANG Xiao-xiao, et al. Uniaxial stress relaxation of frozen loess[J]. Journal of Glaciology and Geocryology, 1993, 15 (1): 125 – 128. (in Chinese) )
    [13]
    吴紫汪 , 马 巍 . 冻土的强度与蠕变 [M]. 兰州 : 兰州大学出版社 , 1994. (WU Zi-wang, MA Wei. Strength and creep of frozen soil[M]. Lanzhou: Lanzhou University Press, 1994. (in Chinese))
    [14]
    吴紫汪 , 蒲毅彬 , 马 巍 , 等 . 冻土蠕变过程体积变化 CT 分析 [J]. 冰川冻土 , 1995, 17 ( 增刊 1): 41 – 46. (WU Zi-wang, PU Yi-bin, MA Wei, et al. CT analysis on volume change of frozen soil in creep process[J]. Journal of Glaciology and Geocryology, 1995, 17 (S1): 41 – 46. (in Chinese))
    [15]
    吴紫汪 , 刘永智 , 赵希淑 , 等 . 冻土蠕变的光黏弹性模拟实验 [J]. 自然科学进展 , 1996, 6 (1): 86 – 92. (WU Zi-wang, LIU Yong-zhi, ZHAO Xi-shu, et al. The photoviscoclastic simulation experiment of frozen soil creep[J]. Progress in Natural Science, 1996, 6 (1): 86 – 92. (in Chinese))
    [16]
    吴紫汪 , 马 巍 , 蒲毅彬 , 等 . 冻土单轴蠕变过程中结构变化的 CT 动态监测 [J]. 冰川冻土 , 1996, 18 (4): 306 – 311. (WU Zi-wang, MA Wei, PU Yi-bin, et al. Monitoring the change of structures in frozen soil in uniaxial creep process by CT[J]. Journal of Glaciology and Geocryology, 1996, 18 (4): 306 – 311. (in Chinese))
    [17]
    吴紫汪 , 马 巍 , 蒲毅彬 , 等 . 冻土蠕变变形特征的细观分析 [J]. 岩土工程学报 , 1997, 19 (3): 1 – 6. (WU Zi-wang, MA Wei, PU Yi-bin, et al. Submicroscopic analysis on deformation characteristics in creep process of frozen soil[J]. Chinese Journal of Geotechnical Engineering, 1997, 19 (3): 1 – 6. (in Chinese))
    [18]
    ZHU Yuan-lin, CARBEE D L. Creep behaviour of frozen silt under constant unaxial stress[C]// Proc of 4th Inter Conf Permafrost, Fairbanks, Alaska, 1983: 1507 – 1512.
    [19]
    ZHU Yuan-lin, CARBEE D L. Uniaxial compressive strength of frozen silt under constant deformation rates[J]. Cold Regions science and Technology, 1984(9): 3 – 15.
    [20]
    ZHU Yuan-lin, CARBEE D L. Strain rate effect on the tensile strength of frozen silt[C]// Proc of 4th Inter Symp On Ground Freezing, Sapporo, 1985: 153 – 157.
    [21]
    ZHU Yuan-lin, ZHANG Jia-yi, SHEN Zhong-yan. Uniaxial compressive strength of frozen medium sand under constant deformation rates[C]// 5th Inter Symposium on Ground Freezing, Nottingham, England. 1988: 225 – 232.
    [22]
    ZHU Yuan-lin, CARBEE D L. Tensile strength of frozen silt[C]// USA CRREL Report, 87-15.
    [23]
    马 巍 , 吴紫汪 , 盛 煜 . 冻土的蠕变及蠕变强度 [J]. 冰川冻土 , 1994, 16 (2): 113 – 118. (MA Wei, WU Zi-wang, SHENG Yu. Creep and creep strength of frozen soil[J]. Journal of Glaciology and Geocryology, 1994, 16 (2): 113 – 118. (in Chinese))
    [24]
    马 巍 , 吴紫汪 , 盛 煜 . 围压对冻土强度特性的影响 [J]. 岩土工程学报 , 1995, 17 (5): 7 – 11. (MA Wei, WU Zi-wang, SHENG Yu. Effect of confining pressure on strength behaviour of frozen soil[J]. Chinese Journal of Geotechnical Engineering, 1995, 17 (5): 7 – 11. (in Chinese))
    [25]
    马 巍 , 吴紫汪 , 常小晓 , 等 . 剪应力强度和平均法向应力对冻土变形的相互影响 [J]. 自然科学进展 , 1998, 8 (1): 77 – 81. (MA Wei, WU Zi-wang, CHANG Xiao-xiao, et al. The influence of shear stress strength and mean normal stress on the frozen soils deformation[J]. Progress in Nature Science, 1998, 8 (1): 77 – 81. (in Chinese))
    [26]
    令 锋 , 吴紫汪 , 朱元林 , 等 . 冻土应力–应变曲线的分形逼近 [J]. 中国科学 D 辑 , 1999, 29 ( 增刊 1): 15 – 20. (LING Feng, WU Zi-wang, ZHU Yuan-lin, et al. Fractal approximation of the stress-strain curve of frozen soil[J]. Science China Series D, 1999, 29 (S1): 15 – 20. (in Chinese))
    [27]
    朱志武 , 宁建国 , 马 巍 . 冻土屈服面与屈服准则的研究 [J]. 固体力学学报 , 2006, 27 (3): 307 – 310. (ZHU Zhi-wu, NING Jian-guo, MA Wei. Study on yield surface anf yield criterion of frozen soil[J]. Acta Mechanica Solida Sinica, 2006, 27 (3): 307 – 310. (in Chinese))
    [28]
    马 巍 , 吴紫汪 , 张长庆 . 冻土的强度与屈服准则 [J]. 自然科学进展 , 1994, 4 (3): 319 – 322. (MA Wei, WU Zi-wang, ZHANG Chang-qing. Strength and Yield criteria of frozen soil[J]. Progress in Natural Science, 1994, 4 (3): 319 – 322. (in Chinese))
    [29]
    何 平 , 程国栋 , 杨成松 , 等 . 非饱和冻土的强度分析 [J]. 冰川冻土 , 2002, 24 (3): 260 – 263. (HE Ping, CHENG Guo-dong, YANG Cheng-song, et al. Analysis of strength of unsaturated frozen soil[J]. Journal of Glaciology and Geocryology, 2002, 24 (3): 260 – 263. (in Chinese))
    [30]
    徐学燕 , 仲丛利 , 陈亚明 , 等 . 冻土的动力特性研究及其参数确定 [J]. 岩土工程学报 , 1998, 20 (5): 77 – 81. (XU Xue-yan, ZHONG Cong-li, CHEN Ya-ming, et al. Research on dynamic characters of frozen soil and determination of its parameters[J]. Chinese Journal of Geotechnical Engineering, 1998, 20 (5): 77 – 81. (in Chinese))
    [31]
    徐学燕 , 仲丛利 . 冻土动弹模、动泊桑比的确定 [J]. 哈尔滨建筑大学学报 , 1997, 30 (4): 23 – 29. (XU Xue-yan, ZHONG Cong-li. The determination of dynamic elastic modulus and dynamic Poisson's ratio of frozen soil[J]. Journal of Harbin University of C E & Archiecture, 1997, 30 (4): 23 – 29. (in Chinese))
    [32]
    凌贤长 , 徐学燕 , 邱明国 , 等 . 冻结哈尔滨粉质黏土动三轴试验 CT 检测研究 [J]. 岩石力学与工程学报 , 2003, 22 (8): 1244 – 1249. (LING Xian-chang, XU Xue-yan, QIU Ming-guo, et al. Study on CT scanning of harbin frozen silty clay before and after dynamic triaxial test[J]. Chinese Journal of Rock Mechanics and Engineering, 2003, 22 (8): 1244 – 1249. (in Chinese))
    [33]
    徐春华 , 徐学燕 , 邱明国 , 等 . 循环荷载下冻土的动阻尼比试验研究 [J]. 哈尔滨建筑大学学报 , 2002, 35 (6): 22 – 25. (XU Chun-hua, XU Xue-yan, QIU Ming-guo, et al. Experimental study on dynamic damping ratio of frozen soil under cyclic loading[J]. Journal of Harbin University of C.E.& Architecture, 2002, 35 (6): 22 – 25. (in Chinese))
    [34]
    赵淑萍 , 何 平 , 朱元林 , 等 . 荷载振动频率对冻结兰州细砂蠕变特性的影响 [J]. 岩石力学与工程学报 , 2006, 25 ( 增刊 2): 4097 – 4103. (ZHAO Shu-ping, HE Ping, ZHU Yuan-lin, et al. Impact of load vibration frequency on creep characteristics of frozen lanzhou fine-sand[J]. Chinese Journal of Rock Mechanics and Engineering, 2006, 25 (S2): 4097 – 4103. (in Chinese))
    [35]
    苗天德 , 魏雪霞 , 张长庆 . 冻土蠕变过程的微结构损伤理论 [J]. 中国科学 B 辑 , 1995, 25 (3): 309 – 316. (MIAO Tian-de, WEI Xue-xia, ZHANG Chang-qing. Microstructurual demage theories of creep of frozen soil[J]. Science in China(Series B), 1995, 25 (3): 309 – 317. (in Chinese))
    [36]
    刘增利 , 李洪升 , 朱元林 . 冻土单轴压缩损伤特征与细观损伤测试 [J]. 大连理工大学学报 , 2002(2): 223 – 227. (LIU Zeng-li, LI Hong-sheng, ZHU Yuan-lin. Damage characteristics and micro-crack damage measurement of frozen soil under uni-axial compression[J]. Journal of Da-lian University of Technology, 2002(2): 223 – 227. (in Chinese) )
    [37]
    李洪升 , 王悦东 , 刘增利 . 冻土中微裂纹尺寸的识别与确认 [J]. 岩土力学 , 2004, 25 (4): 534 – 537. (LI Hong-sheng, WANG Yue-dong, LIU Zeng-li. Identification and determination of micro-crack size for frozen soil[J]. Rock and Soil Mechanics, 2004, 25 (4): 534 – 537. (in Chinese))
    [38]
    李洪升 , 张小鹏 , 朱元林 , 等 . 冻土断裂韧度 <> K IC 的测试研究 [J]. 冰川冻土 , 1995, 17 (4): 328 – 333. (LI Hong-sheng, ZHANG Xiao-peng, ZHU Yuan-lin, et al. Experimental studies of fracture toughness <>KIC for frozen soil[J]. Journal of Glaciology and Geocryology, 1995, 17 (4): 328 – 333. (in Chinese))
    [39]
    刘增利 , 李洪升 , 朱元林 , 等 . 冻土 Ⅰ-Ⅱ 型复合断裂准则的试验研究 [J]. 岩土工程学报 , 1999, 21 (2): 148 – 152. (LIU Zeng-li, LI Hong-sheng, ZHU Yuan-lin, et al. Experimental study of criteria of compound fracture for frozen soil[J]. Chinese Journal of Geotechnical Engineering, 1999, 21 (2): 148 – 152. (in Chinese))
    [40]
    李洪升 , 刘增利 , 朱元林 , 等 . 冻土断裂韧度测试的理论与方法 [J]. 岩土工程学报 , 2000, 22 (1): 61 – 65. (LI Hong-sheng, LIU Zeng-li, ZHU Yuan-lin, et al. Theory and methods on tests of the fracture toughness <>KIC of frozen soil[J]. Chinese Journal of Geotechnical Engineering, 2000, 22 (1): 61 – 65. (in Chinese))
    [41]
    李洪升 , 刘晓洲 , 刘增利 . 冻土断裂力学破坏准则及其在工程中的应用 [J]. 土木工程学报 , 2006, 39 (1): 65 – 78. (LI Hong-sheng, LIU Zeng-li, ZHU Yuan-lin, et al. Theory and methods on tests of the fracture toughness <>KIC of frozen soil [J]. Chinese Journal of Geotechnical Engineering, 2006, 39 (1): 65 – 78. (in Chinese))
    [42]
    马小杰 , 张建明 , 常小晓 , 等 . 高温–高含冰量冻土蠕变试验研究 [J]. 岩土工程学报 , 2007, 29 (6): 848 – 851. (MA Xiao-jie, ZHANG Jian-ming, CHANG Xiao-xiao, et al. Expermental study on creep of warm and ice-rich frozen soil[J]. Chinese Journal of Geotechnical Engineering, 2007, 29 (6): 848 – 85. (in Chinese))
    [43]
    赖远明 , 张 耀 , 张淑娟 , 等 . 超饱和含水率和温度对冻结砂土强度的影响 [J]. 岩土力学 , 2007, 29 (6): 3665 – 3670. (LAI Yuan-ming, ZHANG Yao, ZHANG Shu-juan, et al. Expermental study of strength of frozen sandy soil under different water contents and temperatures[J]. Rock and Soil Mechanics, 2007, 29 (6): 3665 – 3670. (in Chinese))
    [44]
    赖远明 , 李双洋 , 高志华 , 等 . 高温冻结黏土单轴随机损伤本构模型及强度分布规律 [J]. 冰川冻土 , 2007, 29 (6): 969 – 976. (LAI Yuan-ming, LI Shuang-yang, GAO Zhi-hua, et al. Stochastic damage constitutive model for warm frozen soil under uniaxial compression and its strength distributiong[J]. Journal of Glaciology and Geocryology, 2007, 29 (6): 969 – 976. (in Chinese))
    [45]
    崔广心 . 深土冻土力学 — 冻土力学发展的新领域 [J]. 冰川冻土 , 1998, 20 (2): 97 – 100. (CUI Guang-xin. Mechanics of frozen soil for deep alluvium—a new field of frozen soil mechanics[J]. Journal of Glaciology and Geocryology, 1998, 20 (2): 97 – 100. (in chinese))
    [46]
    崔广心 . 我国人工冻结工程研究现状及展望 [C]// 第五届全国冰川冻土学大会论文集 ( 下 ). 兰州 : 甘肃文化出版社 , 1996: 843 – 851. (CUI Guang-xin. The artificial frozen engineering in China: present state and perspective[C]// The Proceedings of the 5th national conference on glaciology and geocryology. Lanzhou: Gansu Cultural Press, 1996: 843 – 851. ((in Chinese))
    [47]
    马 巍 , 吴紫汪 , 常小晓 . 固结过程对冻土应力 - 应变特性的影响 [J]. 岩土力学 , 2000, 21 (3): 198 – 200. (MA Wei, WU Zi-wang, CHANG Xiao-xiao. Effects of consolidation process on stress-strain characters of frozen soils[J]. Rock and Soil Mechanics, 2000, 21 (3): 198 – 200. (in Chinese))
    [48]
    MA Wei, CHANG Xiao-xiao. Analyses of strength and deformation of an artificially frozen soil wall in underground engineering[J]. Cold Regions Science and Technology, 2002(1): 11 – 17.
    [49]
    马 巍 , 常小晓 . 加载卸载对人工冻结土强度与变形的影响 [J]. 岩土工程学报 , 2001, 23 (5): 563 – 566. (MA Wei, CHANG Xiao-xiao. Influence of loading and unloading on strength and deformation of frozen soil[J]. Chinese Journal of Geotechnical Engineering, 2001, 23 (5): 563 – 566. (in Chinese))
    [50]
    马 巍 , 常小晓 . 两种不同试验模式下人工冻结土强度与变形的对比分析 [J]. 冰川冻土 , 2002, 24 (2): 149 – 154. (MA Wei, CHANG Xiao-xiao. Comparison of strength and deformation of artificially frozen soil in two testing manners[J]. Journal of Glaciology and Geocryology, 2002, 24 (2): 149 – 154. (in Chinese))
    [51]
    WANG Da-yan, MA Wei, CHANG Xiao-xiao. Analyses of behaviour of stress-strain of frozen Lanzhou loess subjected to K0 consolidation[J]. Cold Regions Science and Technology, 2004, 40 : 19 – 29.
    [52]
    WANG Da-yan, MA Wei, CHANG Xiao-xiao, WANG Ai-guo. Study on the resistance to deformation of artificially frozen soil in deep alluvium[J]. Cold Regions Science and Technology, 2005, 42 (3): 194 – 200.
    [53]
    WANG Da-yan, MA Wei, WEN Zhi, et al. Study on strength of artificially frozen soils in deep alluvium[J]. Tunnelling and Underground Space Technology, 2008, 23 (4): 381 – 388.
    [54]
    WANG Da-yan, MA Wei, WEN Zhi, et al. Stiffness of frozen soils subjected to <>K0 consolidation before freezing[J]. Soils and Foundations, 2007, 47 (5): 991 – 997.
    [55]
    朱元林 , 张家懿 , 彭万巍 , 等 . 冻土的单轴压缩本构模型 [J]. 冰川冻土 , 1992, 14 (3): 210 – 217. (ZHU Yuan-lin, ZHANG Jia-yi, PENG Wan-wei, et al. Constitutive relations of frozen soil in uniaxial compression[J]. Journal of Glaciology and Geocryology, 1992, 14 (3): 210 – 217. (in Chinese))
    [56]
    蔡中民 , 朱元林 , 张长庆 . 冻土的黏弹塑性本构模型及材料参数的确定 [J]. 冰川冻土 , 1990, 12 (1): 31 – 40. (CAI Zhong-min, ZHU Yuan-lin, ZHANG Chang-qing. Viscoelastoplastic constitutive model of frozen soil and determination of its parameters[J]. Journal of Glaciology and Geocryology, 1990, 12 (1): 31 – 40. (in Chinese))
    [57]
    苗天德 , 魏雪霞 , 张长庆 . 冻土蠕变过程的微结构损伤理论 [J]. 中国科学 B 辑 , 1995, 25 (3): 309 – 317. (MIAO Tian-de, WEI Xue-xia, ZHANG Chang-qing. Microstruc- turual demage theories of creep of frozen soil[J]. Science in China (Series B), 1995, 25 (3): 309 – 317. (in Chinese))
    [58]
    何 平 , 程国栋 , 朱元林 . 冻土黏弹塑损伤耦合本构理论 [J]. 中国科学 D 辑 , 1999, 29 ( 增刊 ): 34 – 39. (HE Ping, CHENG Guo-dong, ZHU Yuan-lin. Permafrost viscoelastic- damage coupled plastic constitutive theory[J]. Science in China (Series B), 1999, 29 (S0): 34 – 39. (in Chinese))
    [59]
    宁建国 , 王 慧 , 朱志武 , 等 . 基于细观力学方法的冻土本构模型研究 [J]. 北京理工大学学报 , 2005, 25 (10): 847 – 851. (NING Jian-guo, WANG Hui, ZHU Zhi-wu, et al. Investigation of the constitutive model of frozen soil based on meso-mechanics[J]. Transactions of Beijing Institute of Technology, 2005, 25 (10): 847 – 851. (in Chinese))
    [60]
    刘增利 , 张小鹏 , 李洪升 . 基于动态 CT 识别的冻土单轴压缩损伤本构模型 [J]. 岩土力学 , 2005, 26 (4): 542 – 546. (LIU Zeng-li, ZHANG Xiao-peng, LI Hong-sheng. A damage constitutive model for frozen soils under uniaxial compression based on CT dynamic distinguishing[J]. Rock and Soil Mechanics, 2005, 26 (4): 542 – 546. (in Chinese))
    [61]
    徐学祖 , 奥利奋特 J L, 泰斯 A R. 土水势、未冻水含量和温度 [J] .冰川冻土 , 1985, 7 (1): 1 – 14. (XU Xue-zu, OLIPHANT J L, TICE A R. Soil water potential, unfrozen water content and temperature[J]. Journal of Glaciology and Geocryology, 1985, 7 (1): 1 – 14.
    [62]
    XU Xue-zu, ZHANG Li-xin, WANG Jia-cheng. Establish- ment of a model for predicting unfrozen water content[C]// Proceedings of the 7th International Symposium on Ground Freezing, 1995: 65 – 68.
    [63]
    XU Xue-zu, ZHANG Li-xin, DENG You-sheng. Unfrozen water content in multi-crystal ice[C]// Proceedings of 6th Intern.Conf. on Permafrost, 1993: 1295 – 1297.
    [64]
    张立新 , 徐学祖 , 陶兆祥 , 等 . 含氯化钠盐冻土中溶液的二次相变分析 [J]. 自然科学进展 , 1993, 3 (1): 48 – 52. (ZHAN Li-xin, XU Xue-zu, TAO Zhao-xiang, et al. The second phase transformation analysis of the frozen soils with Nacl[J]. Progress in Natural Science, 1993, 3 (1): 48 – 52. (in Chinese))
    [65]
    徐学祖 , 邓友生 . 土冻融过程中未冻水含量和冻融温度及土水势的变化 [C]// 第四届全国冰川冻土学术会议论文选集(冻土学) . 北京 : 科学出版社 , 1990: 64 – 76. (XU Xue-zu, DENG You-sheng. The variation of unfrozen soils water, freezing-thawing temperature and soil water potential during the process of soil freezing-thawing[C]// The Proceedings of the 4th National Conference of Glaciology and Geocryology (Cryopedology). Beijing: Science Press, 1990: 64 – 76. (in Chinese))
    [66]
    ZHANG Li-xin, XU Xue-zu. The influence of freezing- thawing process on the unfrozen water content of frozen saline soil[C]// Proceedings of 7th International Symposium on Ground Freezing, 1994: 93 – 97.
    [67]
    程国栋 . 季节冻结和融化层中未冻水的单向积聚效应 [J]. 科学通报 , 1981, 26 (23): 1448 – 1451. (CHENG Guo-dong. Unidirectional aggregation effect of unfrozen water under seasonal frost and thaw layer[J]. Chinese Science Bulletin, 1981, 26 (23): 1448 – 1451. (in Chinese))
    [68]
    XU Xue-zu. Water and solute migration of freezing soils in the closed system under temperature gradients[C]// Proceedings of the 6th International Symposium on Ground Freezing, 1991: 93 – 98.
    [69]
    XU Xue-zu, DENG You-sheng, WANG Jia-cheng. Water migration saturated freezing soil[C]// Proceedings of 5th Intern. Conf. on Permafrost, 1988: 516 – 521.
    [70]
    XU Xue-zu, OLIPHANT J L, TICE A R. Experimental study on factors affecting water migration in frozen morin clay[C]// Proceedings of 4th Intl. Symp. on Ground Freezing, 1985(1): 123 – 128.
    [71]
    徐学祖 , 邓友生 , 王家澄 , 等 . 封闭系统非饱和含氯化钠盐正冻土中的水盐迁移 [C]// 第五届全国冰川冻土学大会论文集 . 兰州 : 甘肃文化出版社 , 1996: 601 – 606. (XU Xue-zu, DENG You-sheng, WANG Jia-cheng, et al. Water and solute migration in unsaturated freezing saline soil with NaCl in a close system[C]// Proceeding on the fifth Chinese Conference on Glaciology and Geocryology. Lanzhou: Gansu Culture Press, 1996: 601 – 606. (in Chinese))
    [72]
    盛 煜 , 马 巍 , 侯仲杰 . 正冻土中水分迁移的迁移势模型 [J]. 冰川冻土 , 1993, 15 (1): 140 – 143. (SHENG Yu, MA Wei, HOU Zhong-jie. A model of migration potential for moisture migration during soil freezing[J]. Journal of Glaciology and Geocryology, 1993, 15 (1): 140 – 143. (in Chinese))
    [73]
    XU Xue-zu, WANG Jia-cheng, ZHANG Li-xin, et al. Mechanism of frost heave by film water migration under temperature gradient[J]. Chinese Science Bulletin, 1997, 42 (15): 1290 – 1293.
    [74]
    周国庆 . 间歇冻结抑制人工冻土冻胀机理分析 [J]. 中国矿业大学学报 , 1999, 28 (5): 413 – 416. (ZHOU Guo-qing. Analysis of mechanism of restraining soil freezing swelling by using intermission method[J]. Journal of China University of Mining & Technology, 1999, 28 (5): 413 – 416. (in Chinese))
    [75]
    周金生 , 周国庆 , 马 巍 , 等 . 间歇冻结控制人工冻土冻胀的试验研究 [J]. 中国矿业大学学报 , 2006, 35 (6): 708 – 712. (ZHOU Jin-sheng, ZHOU Guo-qing, MA Wei, et al. Experimental research on controlling frost heave of artificial frozen soil with intermission freezing method[J]. Journal of China University of Mining & Technology, 2006, 35 (6): 708 – 712. (in Chinese))
    [76]
    王家澄 , 刘继民 . 土冻结时的物理过程和冷生组构 [C]// 第三届全国冻土学术会议论文集 . 北京 : 科学出版社 , 1989: 78 – 84. (WANG Jia-cheng, LIU Ji-ming. The physical process of the soil freezing and cryostructure[C]// The Proceedings of the 3th National Conference of Glaciology and Geocryology. Beijing: Science Press, 1989: 78 – 84. (in Chinese))
    [77]
    王家澄 , 徐学祖 , 邓友生 . 压力对冻土孔隙特征的影响 [J]. 冰川冻土 , 1993, 15 (1): 160 – 165. (WANG Jia-cheng, XU Xue-zu, DENG You-sheng. Pressure influence on pore characteristic of frozen soils[J]. Journal of Glaciology and Geocryology, 1993, 15 (1): 160 – 165. (in Chinese))
    [78]
    王家澄 , 徐学祖 , 张立新 , 等 . 温度和压力条件对正冻土中成冰过程和冷生组构的影响 [J]. 冰川冻土 , 1995, 17 (3): 250 – 257. (WANG Jia-cheng, XU Xue-zu, ZHANG Li-xin, et al. Influence of temperature and pressure on cryogenic structure of freezing soil[J]. Journal of Glaciology and Geocryology, 1995, 17 (3): 250 – 257. (in Chinese) )
    [79]
    程国栋 . 厚层地下冰的形成过程 [J]. 中国科学 B 辑 , 1982(3): 281 – 288. (CHENG Guo-dong. The formation of thick ground ice[J]. Science in China(Series B), 1982(3): 281 – 288. (in Chinese))
    [80]
    李 萍 , 徐学祖 , 蒲毅彬 , 等 . 利用图像数字化技术分析冻结缘特征 [J]. 冰川冻土 , 1999, 21 (2): 175 – 180. (LI Ping, XU Xue-zu, PU Yi-bin, et al. Analyses of characteristics of frozen fringe ba using the digital technique of picture[J]. Journal of Glaciology and Geocryology, 1999, 21 (1): 175 – 180. (in Chinese))
    [81]
    SHEN Mu, LADANYI B. Modelling of coupled heat, moisture and stress field in freezing soil[J]. Cold Regions Science and Technology, 1987, 14 : 237 – 246.
    [82]
    ZHANG Li-xin, PU Yi-bin, LIAO Quan-rong, et al. Dynamic investigation on the coupled changing process of moisture and density fields in freezing soil[J]. Science in China, 1999, 42 (2): 141 – 145.
    [83]
    何 平 , 程国栋 , 俞祁浩 , 等 . 饱和正冻土中的水、热、力场耦合模型 [J]. 冰川冻土 , 2000, 22 (2): 135 – 138. (HE Ping, CHENG Guo-dong, YU Qi-hao, et al. A couple model of heat, water and stress fields of saturated soil during freezing[J]. Journal of Glaciology and Geocryology, 2000, 22 (2): 135 – 138. (in Chinese))
    [84]
    王铁行 , 胡长顺 . 多年冻土地区路基温度场和水分迁移场耦合问题研究 [J]. 土木工程学报 , 2003, 36 (12): 93 – 97. (WANG Tie-hang, HU Chang-shun. Study on the problem of coupled temperature field and moisture migration field of subgrade in permafrost region[J]. China Civil Engineering Journal, 2003, 36 (12): 93 – 97. (in Chinese))
    [85]
    李洪升 , 刘增利 , 李南生 . 基于冻土水分温度和外荷载相互作用的冻胀模式 [J]. 大连理工大学学报 , 1998, 38 (1): 29 – 33. (LI Hong-sheng, LIU Zeng-li, LI Nan-sheng. A frost heave model based on moisture temperature and applied load interaction in frozen soil[J]. Journal of Dalian University of Technology, 1998, 38 (1): 29 – 33. (in Chinese))
    [86]
    李洪升 , 刘增利 , 梁承姬 . 冻土水热力耦合作用的数学模型及数值模拟 [J]. 力学学报 , 2001, 33 (5): 621 – 629. (LI Hong-sheng, LIU Zeng-li, LIANG Cheng-ji. Mathematical model for coupled moisture, heat and stress field and numerical simulation of frozen soil[J]. Acta Mechanica Sinica, 2001, 33 (5): 621 – 629. (in Chinese))
    [87]
    苗天德 , 郭 力 , 牛永红 , 等 . 正冻土中水热迁移问题的混合物理论模型 [J]. 中国科学 D 辑 , 1999, 29 ( 增刊 ): 8 – 14. (MIAO Tian-de, GUO Li, NIU Yong-hong, et al. Modeling on coupled heat and moisture transfer in freezing soil using mixture theory[J]. Science in China(Series D), 1999, 29 (S0): 8 – 14. (in Chinese) )
    [88]
    陈飞熊 , 李 宁 , 程国栋 . 饱和正冻土多孔多相介质的理论构架 [J]. 岩土工程学报 , 2002, 24 (2): 213 – 217. (CHEN Fei-xiong, LI Ning, CHENG Guo-dong. The theoretical frame of multi-phase porous medium for the freezing soil[J]. Chinese Journal of Geotechnical Engineering, 2002, 24 (2): 213 – 217. (in Chinese))
    [89]
    陈飞熊 , 李 宁 , 徐 彬 . 非饱和正冻土的三场耦合理论框架 [J]. 力学学报 , 2005, 37 (2): 204 – 214. (CHEN Fei-xiong, LI Ning, XU Bin. Theoretical frame for unsaturated freezing soil[J]. Acta Mechanica Sinica, 2005, 37 (2): 204 – 214. (in Chinese))
    [90]
    李 宁 , 陈 波 , 陈飞熊 . 寒区复合地基的温度场、水分场与变形场三场耦合模型 [J]. 土木工程学报 , 2003, 36 (10): 66 – 71. (LI Ning, CHEN Bo, CHEN Fei-xiong. Heat-moisture-deformation coupled modle for composite foundation in cold zone[J]. China Civil Engineering Journal, 2003, 36 (10): 66 – 71. (in Chinese))
    [91]
    吴紫汪 . 多年冻土工程分类 [J]. 冰川冻土 , 1979, 2 (2): 52 – 60. (WU Zi-wang. Classification of permafrost in engineering constructions[J]. Journal of Glaciology and Geocryology, 1979, 2 (2): 52 – 60. (in Chinese))
    [92]
    吴紫汪 . 冻土工程分类 [J]. 冰川冻土 , 1982, 4 (4): 43 – 48. (WU Zi-wang. Classification of frozen soils in engineering constructions[J]. Journal of Glaciology and Geocryology, 1982, 4 (4): 43 – 48. (in Chinese))
    [93]
    吴紫汪 , 朱林楠 , 郭兴民 , 等 . 青康公路多年冻土区路堤的临界高度 [J]. 冰川冻土 , 1998, 20 (1): 36 – 43. (WU Zi-wang, ZHU Lin-nan, GUO Xing-min, et al. Critical height of the embankment in the permafrost regions along the qinghai-kangding highway[J]. Journal of Glaciology and Geocryology, 1998, 20 (1): 36 – 43. (in Chinese))
    [94]
    丁德文 , 程国栋 . 冻土路堤高度及其冻融变形计算 [C]// 第二届全国冻土学术会议论文选集 . 兰州 : 甘肃人民出版社 , 1983: 398 – 404. (DING De-wen, CHENG Guo-dong. The calculation of the road embankment height and the freezing-thawing deformation[C]// The Proceedings of the 2nd National Conference of Geocryology. Lanzhou: GanSu People's Publishing House, 1983: 398 – 404. (in Chinese))
    [95]
    黄小铭 . 青藏高原多年冻土区铁路路堤临界高度的确定 [C]// 第二届全国冻土学术会议论文选集 . 兰州 : 甘肃人民出版社 , 1983: 391 – 397. (HUANG Xiao-ming. The determination for the critical height of railway embankment in the Qing-Tibet plateau permafrost[C]// The Proceedings of the 2nd National Conference of Geocryology. Lanzhou: GanSu People's Publishing House, 1983: 391 – 397. (in Chinese))
    [96]
    黄小铭 . 我国寒区道路工程中冻土问题研究的回顾 [J]. 冰川冻土 , 1988, 10 (3): 344 – 351. (HUANG Xiao-ming. Review about the research on permafrost problems of road engineering in cold region, in China[J]. Journal of Glaciology and Geocryology, 1988, 10 (3): 344 – 351. (in Chinese))
    [97]
    CHEN Xiao-bai, WANG Ya-qing, HE Ping. Ice segregation and frost susceptibility of sandy gravel during freezing in open system. Chinese Science Bulletin, 1989, 34 (3): 216 – 219.
    [98]
    徐绍新 . 季节冻土区水工建筑物抗冻害技术研究的成就与展望 [C]// 第五届全国冰川冻土学大会论文集 ( 上 ). 兰州 : 甘肃文化出版社 , 1996: 291 – 298. (XU Shao-xin. Achievement and prospect on the studies of technological measures against frost damage for hydro — structures in seasonally frozen ground regions[C]// Proceeding of the 5th Chinese conference on glaciology and geocryology. Lanzhou: Gansu Culture Press, 1996: 291 – 298. (in Chinese))
    [99]
    刘鸿绪 . 法向冻胀力计算 —— 层状空间半无限直线变形体计算在冻土地基中的应用 [J]. 冰川冻土 , 1981, 2 : 13 – 17. (LIU Hong-xu. On calculation of normal frost heaving force[J]. Journal of Glaciology and Geocryology, 1981, 2 : 13 – 17. (in Chinese))
    [100]
    丁靖康 , 娄安金 . 水平冻胀力的现场测定方法 [J]. 冰川冻土 , 1980( 增刊 1): 33 – 36. (DING Jing-kang, LOU An-jin. The measure methods of the horizontal frost-heave forces in fields[J]. Journal of Glaciology and Geocryology, 1980(S1): 33 – 36. (in Chinese))
    [101]
    朱 强 , 付思宁 , 武福学 , 等 . 论季节冻土的冻胀沿冻深分布 [J]. 冰川冻土 , 1988, 10 (1): 1 – 7. (ZHU Qiang, FU Si-ning, WU Fu-xue, et al. On the frost heave distribution along depth[J]. Journal of Glaciology and Geocryology, 1988, 10 (1): 1 – 7. (in Chinese))
    [102]
    童长江 , 管枫年 . 土的冻胀与建筑物冻害防治 [M]. 北京 : 水利水电出版社 , 1985. (TONG Chang-jiang, GUAN Feng-nian. The soil frost heave and the treatment for freezing damage[M]. Beijing: China Water Power Press, 1985. (in Chinese))
    [103]
    陈卓怀 . 多年冻土地区铁路桥涵基础 [C]// 第二届全国冻土学术会议论文集 . 兰州 : 甘肃人民出版社 , 1983: 412 – 418. (CHEN Zhuo-huai. The railway bridge and culvert base in permafrost[C]// The Proceedings of the 2nd National Conference of Geocryology. Lanzhou: GanSu People's Publishing House, 1983: 412 – 418. (in Chinese))
    [104]
    励国良 , 赵西生 , 王化卿 , 等 . 多年冻土地区桩基试验研究 [C]// 冰川冻土学术会议论文选集 . 北京 : 科学出版社 , 1983: 154 – 160. (LI Guo-liang, ZHAO Xi-sheng, WANG Hua-qing, et al. The experimental study on the pile basement in permafrost[C]// Proceeding of the Chinese Conference on Glaciology and Geocryology. Beijing: Science Press, 1983: 154 – 160. (in Chinese)
    [105]
    何春雄 , 吴紫汪 , 朱林楠 . 严寒地区隧道围岩冻融状况分析的导热与对流换热模型 [J]. 中国科学 D 辑 , 1999, 29 ( 增刊 ): 1 – 7. (HE Chun-xiong, WU Zi-wang, ZHU Lin-nan. A convection-conduction model for analysis of the freeze-thaw conditions in the surrounding rock wall of a tunnel in permafrost regions[J]. Science in China(Series D), 1999, 29 (S0): 1 – 7. (in Chinese))
    [106]
    赖远明 . 寒区隧道温度场、渗流场和应力场耦合问题的非线性分析 [D]. 北京 : 中国科学院 . (LAI Yuan-ming. Nonlinear analysis for the coupled problem of temperature, seepage and stress fields in cold regions tunnels[D]. Beijing: Chinese Academy of Sciences. (in Chinese))
    [107]
    张学富 , 苏新民 , 赖远明 , 等 . 寒区隧道三维温度场非线性分析 [J]. 土木工程学报 , 2004, 37 (2): 47 – 53. (ZHANG Xue-fu, SU Xin-min, LAI Yuan-ming, et al. Non-linear analysis for three-dimensional temperature fields in cold-region tunnels[J]. China Civil Engineering Journal, 2004, 37 (2): 47 – 53. (in Chinese))
    • Related Articles
  • Supplements (0)

Catalog

    Get Citation
    PDF
    XML
    Article views (1802) PDF downloads (1337) Cited by()
    Related
    Copyright © 2010 Editorial By Chinese Journal of Geotechnical Engineering 苏ICP备05007122号-11公安联网备案号:32010602011255
    Editorial Office address:34 Hujuguan,Nanjing 210024,ChinaPostal Code:210024Tel:025-85829534,85829556E-mail: ge@nhri.cn

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return