[24] |
WETTLAUFER J S,WORSTER M G. Premelting dynamics[J]. Annual Review of Fluid Mechanics,2006,38:427–452.
|
[31] |
HESSTVEDT E. The intefacial energy ice/water[J]. Publication of Norwegian Geotechnical Institute,1964,56:7–10.
|
[6] |
VAN ALST L J. Laboratory experiments in cold temperature rock deformation[Ph. D. Thesis][D]. Oregon:University of Oregon,2011.
|
[11] |
EVERETT D H. The thermodynamics of frost damage to porous solids[J]. Physical and Inorganic Chemistry,1961,57:1 541–1 551.
|
[1] |
谭 龙,韦昌富,田慧会,等. 冻土未冻水含量的低场核磁共振试验研究[J]. 岩土力学,2015,36(6):1 566–1 572.(TAN Long,WEI Changfu,TIAN Huihui,et al. Experimental study of unfrozen water content of frozen soils by low-field nuclear magnetic resonance[J]. Rock and Soil Mechanics,2015,36(6):1 566–1 572.(in Chinese))
|
[4] |
SPAANS E,BAKER J M. The Soil freezing characteristic:its measurement and similarity to the soil moisture characteristic[J]. Soil Science Society of America Journal,1996,60(1):13–19.
|
[8] |
刘泉声,黄诗冰,康永水,等. 裂隙岩体冻融损伤研究进展与思考[J]. 岩石力学与工程学报,2015,34(3):452–471.(LIU Quansheng,HUANG Shibing,KANG Yongshui,et al. Advance and review on freezing-thawing damage of fractured rock[J]. Chinese Journal of Rock Mechanics and Engineering,2015,34(3):452–471.(in Chinese))
|
[13] |
WATANABE K,FLURY M. Capillary bundle model of hydraulic conductivity for frozen soil[J]. Water Resources Research,2008,44(12):1–9.
|
[15] |
贾海梁,项 伟,谭 龙,等. 砂岩冻融损伤机制的理论分析和实验验证[J]. 岩石力学与工程学报,2016,35(5):879–895.(JIA Hailiang,XIANG Wei,TAN Long,et al. Theoretical analysis and experimental verifications of frost damage mechanism of sandstone[J]. Chinese Journal of Rock Mechanics and Engineering,2016,35(5):879–895.(in Chinese))
|
[17] |
GILPIN R R. A model of the “liquid-like” layer between ice and a substrate with applications to wire revelation and particle migration[J]. Journal of Colloid and Interface Science,1979,68(3):235–251.
|
[20] |
GEOENEVELT P H,KAY B D. On the interaction of water and heat transport in frozen and unfrozen soils:Ⅱ. the liquid phase[J]. Soil Science Society of America Journal,1974,38(3):400–404.
|
[22] |
LIU L,YE G,SCHLANGEN E,et al. Modeling of the internal damage of saturated cement paste due to ice crystallization pressure during freezing[J]. Cement and Concrete Composites,2011,33(5):562–571.
|
[27] |
程 桦,陈汉青,曹广勇,等. 冻土毛细–薄膜水分迁移机制及其试验验证[J]. 岩土工程学报,2020,42(10):1 790–1 799.(CHENG Hua,CHEN Hanqing,CAO Guangyong,et al. Migration mechanism of capillary-film water in frozen soil and its experimental verification[J]. Chinese Journal of Geotechnical Engineering,2020,42(10):1 790–1 799.(in Chinese))
|
[29] |
BESKOW G. Soil freezing and frost heaving with special application to roads and railroads[J]. Swedish Geological Survey Yearbook,1935,26(3):375–380.
|
[33] |
周科平,李杰林,许玉娟,等. 冻融循环条件下岩石核磁共振特性的试验研究[J]. 岩石力学与工程学报,2012,31(4):731–737.(ZHOU Keping,LI Jielin,XU Yujuan,et al. Experimental study of NMR characteristics in rock under freezing and thawing cycles[J]. Chinese Journal of Rock Mechanics and Engineering,2012,31(4):731–737.(in Chinese))
|
[2] |
BITTELLI M,FLURY M,CAMPBELL G S. A thermodielectric analyzer to measure the freezing and moisture characteristic of porous media[J]. Water Resources Research,2003,39(2):1–10.
|
[9] |
ANDERSON R,TOHIDI B,WEBBER J. Gas hydrate growth and dissociation in narrow pore networks:capillary inhibition and hysteresis phenomena[J]. The Geological Society,2009,319:145–159.
|
[18] |
EDLEFSEN N E,ANDERSON A B C. Thermodynamic of soil moisture[J]. Hilgardia,1943,15:285–298.
|
[25] |
ZENG Q,FEN-CHONG T,LI K F. Elastic behavior of saturated porous materials under undrained freezing[J]. Acta Mechanica Sinica,2013,29(6):827–835.
|
[34] |
周家作,谭 龙,韦昌富,等. 土体冻结温度与过冷温度试验研究[J]. 岩土力学,2015,36(3):777–785.(ZHOU Jiazuo,TAN Long,WEI Changfu,et al. Experimental research on freezing temperature and super-cooling temperature of soil[J]. Rock and Soil Mechanics,2015,36(3):777–785.(in Chinese))
|
[12] |
MILLER R D. Frost heaving in non-colloidal soils[C]// Permafrost,National Research Council. [S. l.]:[s. n.],1978:707–713.
|
[16] |
程 桦,陈汉青,曹广勇,等. 多孔岩石冻融水分迁移损伤机制及试验验证[J]. 岩石力学与工程学报,2020,39(9):1 739–1 749. (CHENG Hua,CHEN Hanqing,CAO Guangyong,et al. Damage mechanism and experimental verification caused by moisture migration during freeze-thaw in porous rock[J]. Chinese Journal of Rock Mechanics and Engineering,2020,39(9):1 739–1 749.(in Chinese))
|
[32] |
李爱芬,任晓霞,王桂娟,等. 核磁共振研究致密砂岩孔隙结构的方法及应用[J]. 中国石油大学学报:自然科学版,2015,39(6):92–98.(LI Aifen,REN Xiaoxia,WANG Guijuan,et al. Characterization of pore structure of low permeability reservoirs using a nuclear magnetic resonance method[J]. Journal of China University of Petroleum:Natural Science,2015,39(6):92–98.(in Chinese))
|
[7] |
徐敩祖,王家澄,张立新. 冻土物理学[M]. 北京:科学出版社,2010:58–59.(XU Xiaozu,WANG Jiacheng,ZHANG Lixin. Frozen soil physics[M]. Beijing:Science Press,2010:58–59.(in Chinese))
|
[23] |
刘泉声,黄诗冰,康永水,等. 低温饱和岩石未冻水含量与冻胀变形模型研究[J]. 岩石力学与工程学报,2016,35(10):2 000–2 012. (LIU Quansheng,HUANG Shibing,KANG Yongshui,et al. Study of unfrozen water content and frost heave model for saturated rock under low temperature[J]. Chinese Journal of Rock Mechanics and Engineering,2016,35(10):2 000–2 012.(in Chinese))
|
[14] |
WETTLAUFER J S,WORSTER M G. Dynamic of premelted films:Frost heave in capillary[J]. Physical Review E,1995,51(5):4 679–4 589.
|
[30] |
GILPIN R R. A model for the prediction of ice lensing and frost heave in soils[J]. Water Resources Research,1980,16(5):918–930.
|
[3] |
ISHIZAKI T,MARUYAMA M,FURUKAWA Y,et al. Premelting of ice in porous silica glass[J]. Journal of Crystal Growth,1996,163(4):455–460.
|
[5] |
晏长根,王 婷,贾海梁,等. 冻融过程中未冻水含量对非饱和粉土抗剪强度的影响[J]. 岩石力学与工程学报,2019,38(6):1 252–1 260.(YAN Changgen,WANG Ting,JIA Hailiang,et al. Influence of the unfrozen water content on the shear strength of unsaturated silt during freezing and thawing[J]. Chinese Journal of Rock Mechanics and Engineering,2019,38(6):1 252–1 260.(in Chinese))
|
[10] |
TIAN H H,WEI C F,WEI H Z. Freezing and thawing characteristics of frozen soils:Bound water content and hysteresis phenomenon[J]. Cold Regions Science and Technology,2014,103:74–81.
|
[19] |
KAY B D,GEOENEVELT P H. On the interaction of water and heat transport in frozen and unfrozen soils:I. the vapor phase[J]. Soil Science Society of America Journal,1974,38(2):395–400.
|
[21] |
WU T,LIAW H C,CHEN Y Z. Thermal effect of surface tension on the inward solidification of spheres[J]. International Journal of Heat and Mass Transfer,2002,45(10):2 055–2 065.
|
[26] |
陈汉青,程 桦,曹广勇,等. 冻土薄膜水压–吸单元模型的建立及试验验证[J]. 岩土力学,2021,42(9):2 480–2 488.(CHEN Hanqing,CHENG Hua,CAO Guangyong,et al. Development of pressure-suction element model for film water in freezing soil and experimental verification[J]. Rock and Soil Mechanics,2021,42(9):2 480–2 488.(in Chinese))
|
[28] |
DASH J G,FU H,WETTLAUFER J S. The premelting of ice and its environmental consequences[J]. Reports on Progress in Physics,1995,58(1):115–167.
|
[35] |
YAO Y B,LIU D M,CHE Y,et al. Petrophysical characterization of coals by low-field nuclear magnetic resonance(NMR)[J]. Fuel,2010,89:1 371–1 380.
|