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1. Ran Xu, Enlong Liu, Siming He, et al. Analysis on mechanical properties and evolution of mesostructure of debris flow from contact network perspective. Granular Matter, 2022, In Press. (SCI;研究生第1作者,本人通讯作者)
2. Jianqiu Tian, Yuanming Lai, Enlong Liu*, et al. A micromechanics-based elasto-plastic model for granular media combined with Cosserat continuum theory. Acta Geotechnica, 2022. In Press. (SCI;研究生第1作者,本人通讯作者)
3. Pan Wang, Enlong Liu, Bin Zhi, et al. Creep characteristics and unified macro–meso creep model for saturated frozen soil under constant/variable temperature conditions. Acta Geotechnica, 2022, In Press. (SCI;研究生第1作者,本人通讯作者)
4. Yi Sun, Enlong Liu, Bin Zhi. Evolution of mesostructure and mechanical characteristics of cemented granular soils under undrained cyclic loads. Granular Matter, 2022, 24:33. (SCI;研究生第1作者,本人通讯作者)
5. Fulong Ma, Enlong Liu, et al. A poromechanics-based constitutive model for warm frozen soil. Cold Regions and Science Technology, 2022, 199:103555. (SCI;研究生第1作者,本人通讯作者)
6. Wei Xiao, Enlong Liu, et al. Numerical simulation of coupled liquid water, stress and heat for frozen soil in the thawing process. Engineering Computations, 2022, 39: 1492-1510. (SCI;研究生第1作者,本人通讯作者)
7. Di Yu, Enlong Liu, Ping Sun,et al. Dynamic mechanical properties and constitutive model for jointed mudstone samples subjected to cyclic loading, European Journal of Environmental and Civil Engineering, 2022, DOI: 10.1080/19648189.2021.1984313. (SCI;研究生第1作者,本人通讯作者)
8. Ziyin Cai, Enlong Liu, Ningsheng Chen, et al. Numerical analysis of the initiation and sliding process of the Yigong landslide using a continuous–discontinuous method. Environmental Earth Sciences, 2022, 81:150. (SCI;研究生第1作者,本人通讯作者)
9. Haojun Yu,Enlong Liu. A binary-medium-based constitutive model for artificially cemented gravel-silty clay mixed soils. European Journal of Environmental and Civil Engineering, 2022. In Press. DOI: 10.1080/19648189.2021.1917455. (SCI;研究生第1作者,本人通讯作者).
10. Pan Wang, Enlong Liu*, Bin Zhi. An elastic-plastic model for frozen soil from micro to macro scale. Applied Mathematical Modelling, 2021, 91: 125-148. (SCI;研究生第1作者,本人通讯作者).
11. Ran Xu, Enlong Liu, Huilin Xing. Analysis on mechanical properties and evolution of mesostructure of soil–rock mixture samples from contact network perspective. Comptes Rendus Mécanique. 2021, 349: 83-102. (SCI;研究生第1作者,本人通讯作者).
12. Chuan He, Enlong Liu, Siming He, et al. A thermo-poro-mechanical model for catastrophic landslides under unsaturated conditions. Journal of Hydrology, 2021, 601:126810. (SCI;研究生第1作者,本人通讯作者).
13. Xingyan Liu, Enlong Liu*, Qihao Yu. A new double hardening constitutive model for frozen mixed soils. European Journal of Environmental and Civil Engineering, 2021, 25:11, 2002-2022. (SCI;研究生第1作者,本人通讯作者).
14. Youneng Liu, Runqiu Huang, Enlong Liu*, et al. Mechanical behaviour and constitutive model of tailing soils subjected to freeze-thaw cycles. European Journal of Environmental and Civil Engineering, 2021, 25(4): 673–695. (SCI;研究生第1作者,本人通讯作者).
15. Biangtang Song, Enlong Liu, et al. Creep characteristics and constitutive model for frozen mixed soils. J. Mt. Sci. , 2021, 18(7): 1966-1976. (SCI;研究生第1作者,本人通讯作者).
16. Dan Wang, Enlong Liu, De Zhang, et al. An elasto-plastic constitutive model for frozen soil subjected to cyclic loading. Cold Regions Science and Technology, 2021, 189: 103341. (SCI;研究生第1作者,本人通讯作者).
17. Xusheng Wan, Enlong Liu*, Enxi Qiu. Study on ice nucleation temperature and water freezing in saline soils. Permafrost and Periglacial Processes, 2021, 32:119-138. (SCI)
18. Ge Zhang, Enlong Liu, et al. Study thermo-hydro-mechanical coupling behaviors of saturated frozen soil based on granular solid hydrodynamics theory. Archive of Applied Mechanics, 2021,91:3921–3936. (SCI;研究生第1作者,本人通讯作者).
19. Enlong Liu, Yuanming Lai. Thermo-poromechanics-based viscoplastic damage constitutive model for saturated frozen soil. International Journal of Plasticity, 2020, 128:102683.(SCI).
20. Pan Wang, Enlong Liu*, Bin Zhi, et al. A macro-micro viscoelastic-plastic constitutive model for saturated frozen soil. Mechanics of Materials, 2020, 147: 103411. (SCI;研究生第1作者,本人通讯作者).
21. Di Yu, Enlong Liu*, Ping Sun, et al. Mechanical properties and binary-medium constitutive model for semi-through jointed mudstone samples. International Journal of Rock Mechanics and Mining Science, 2020, 132: 104376. (SCI;研究生第1作者,本人通讯作者).
22. Ran Xu, Enlong liu*, Xiaoqiong Jiang, et al. Analysis on evolution of mesostructure of cohesionless soil ground upon loading. Powder Technology, 2020, 368: 1-17. (SCI;研究生第1作者,本人通讯作者).
23. Youneng Liu, Enlong Liu*, Zhenyu Yin. Constitutive model for tailing soils subjected to freeze-thaw cycles based on meso-mechanics and homogenization theory. Acta Geotechnica, 2020,15: 2433-2450. (SCI;研究生第1作者,本人通讯作者).
24. De Zhang, Enlong Liu*, Ji Huang. Elastoplastic constitutive model for frozen sands based on framework of homogenization theory. Acta Geotechnica, 2020, 15: 1831-1845. (SCI;研究生第1作者,本人通讯作者).
25. Qingsong Zheng, Enlong Liu*, et al. Dynamic and damage properties of artificial jointed rock samples subjected to cyclic triaxial loading at various frequencies. International Journal of Rock Mechanics and Mining Sciences, 2020, 128: 104243. (SCI;研究生第1作者,本人通讯作者).
26. Yi Sun, Enlong Liu*, et al. Dynamic mechanical properties and mesostructure evolution of granular materials subjected to cyclic loading. Granular Matter, 2020, 22(3):70. (SCI;研究生第1作者,本人通讯作者).
27. Pan Wang, Enlong Liu*, De Zhang, et al. An elastoplastic binary medium constitutive model for saturated frozen soils. Cold Regions Science and Technology, 2020, 174: 103055. (SCI;研究生第1作者,本人通讯作者).
28. H.-j. Yu, E.-l. Liu*. Cyclic properties of artificially cemented gravel-silty clay mixed soils. Experimental Techniques, 2020, 44:573-589. (SCI;研究生第1作者,本人通讯作者).
29. X.Liu, E. Liu*, B.Song, et al. New twin-shear unified strength criterion. Geotechnique Letters, 2020, 10: 231-241. (SCI;研究生第1作者,本人通讯作者).
30. Jianqiu Tian, Enlong Liu*, Chuan He. Shear band analysis of granular materials considering effects of particle shape. Acta Mechanica, 2020, 231: 4445–4461. (SCI;研究生第1作者,本人通讯作者).
31. Xusheng Wan, Enlong Liu*, et al. Study on phase changes of ice and salt in saline soils. Cold Regions Science and Technology, 2020, 172: 12041044. (SCI)
32. Hao-Jun Yu, En-Long Liu*. The mechanical characteristics of artificially cemented gravel–silty clay mixed soils. Proceedings of the Institution of Civil Engineers - Geotechnical Engineering, 2020, 173(3):262-273. (SCI;研究生第1作者,本人通讯作者).
33. Youneng Liu, Enlong Liu*. Study on cyclically dynamic behavior of tailing soil exposed to freeze-thaw cycles. Cold Regions Science and Technology, 2020, 171: 102984. (SCI;研究生第1作者,本人通讯作者).
34. De Zhang, Enlong Liu*, Di Yu. A micromechanics-based elastoplastic constitutive model for frozen sands based on homogenization theory. International Journal of Damage Mechanics, 2020, 29(5): 689-714. (SCI;研究生第1作者,本人通讯作者)
35. Qingsong Zheng, Enlong Liu*, Di Yu. Fatigue and damage properties of non-consecutive jointed mudstone samples subjected to cyclic triaxial loading. Bulletin of Engineering Geology and the Environment, 2020, 29:687-714. (SCI;研究生第1作者,本人通讯作者)
36. Jianqiu Tian, Enlong Liu*. Influences of particle shape on evolutions of force-chain and micro-macro parameters at critical state for granular materials. Power Technology, 2019, 354:906-921. (SCI;研究生第1作者,本人通讯作者).
37. Ge Zhang, Enlong Liu*, Shijie Chen, et al. Micromechanical analysis of frozen silty clay-sand mixtures with different sand contents by triaxial compression testing combined with real-time CT scanning. Cold Regions Science and Technology, 2019, 168, 102872. (SCI;研究生第1作者,本人通讯作者).
38. Ge Zhang, Enlong Liu*, Shijie Chen, et al. Effects of uniaxial and triaxial compression tests on the frozen sandstone combining with CT scanning. International Journal of Physical Modelling in Geotechnics, 2019,19(5): 261-274. (SCI;研究生第1作者,本人通讯作者).
39. Pan Wang, Enlong Liu*, Bingtang Song, Xingyan Liu, Ge Zhang, De Zhang. Binary medium creep constitutive model for frozen soils based on homogenization theory. Cold Regions Science and Technology, 2019, 162, 35-42. (SCI;研究生第1作者,本人通讯作者).
40. De Zhang, Quanming Li, Enlong Liu*, et al. Dynamic properties of frozen silty soils with different coarse-grained contents subjected to cyclic triaxial loading. Cold Regions Science and Technology, 2019, 157, 64-85. (SCI;研究生第1作者,本人通讯作者).
41. G. Zhang, E. Liu*, S. Chen, et al. Damage constitutive model based on energy dissipation for frozen sandstone under triaxial compression revealed by x-ray tomography. Experimental Techniques, 2019, 43: 545-560. (SCI;研究生第1作者,本人通讯作者).
42. Xiangyan Liu, Enlong Liu*. Application of new twin-shear unified strength criterion to frozen soil. Cold Regions Science and Technology, 2019, 167: 102857. (SCI;研究生第1作者,本人通讯作者).
43. Xiangyan Liu, Enlong Liu*, De Zhang, et al. Study on effect of coarse-grained content on the mechanical properties of frozen mixed soils. Cold Regions Science and Technology, 2019, 158: 237-251. (SCI;研究生第1作者,本人通讯作者).
44. Xiangyan Liu, Enlong Liu*, De Zhang, et al. Study on strength criterion for frozen soil. Cold Regions Science and Technology, 2019, 161:1-20. (SCI;研究生第1作者,本人通讯作者).
45. Enlong Liu, Yuanming Lai, Henry Wong, Jili Feng. An elastoplastic model for saturated freezing soils based on thermo-poromechanics. International Journal of Plasticity, 2018, 107:246-285. (SCI).
46. Jianqiu Tian, Enlong Liu*. Effect of particle shape on micro-and mesostructure evolution of granular assemblies under biaxial loading conditions. Comptes Rendus Mecanique, 2018, 346:1233-1252. (SCI;研究生第1作者,本人通讯作者).
47. JianqiuTian, Enlong Liu*, et al. Influence of particle shape on the microstructure evolution and the mechanical properties of granular materials. Comptes Rendus Mecanique, 2018, 346: 460-476. (SCI;研究生第1作者,本人通讯作者).
48. Xiao Yin, Enlong Liu*, Bingtang Song, Ge Zhang. Numerical analysis of coupled liquid water, vapor, stress and heat transport in unsaturated freezing soil. Cold Regions Science and Technology, 2018, 155: 20-28. (SCI;研究生第1作者,本人通讯作者).
49. Xiaoqiong Jiang, Enlong Liu*, Lian Jiang, Jianqiu Tian, Yi Sun. Evolution of meso-structures and mechanical properties of granular materials under triaxial compression state from complex network perspective. Granular Matter, 2018, 20:54. (SCI;研究生第1作者,本人通讯作者).
50. Feng Hou, Yuanming Lai, Enlong Liu*, Xingyan Liu. A creep constitutive model for frozen soils with different contents of coarse grains. Cold Regions Science and Technology, 2018, 145: 119-126. (SCI;研究生第1作者,本人通讯作者).
51. Enlong Liu, Shanyong Wang, Cheng Zhou*, Qing Nie. Mechanical properties of artificial structured soils under conventional drained loading-unloading-reloading stress paths. International Journal of Civil Engineering, 2018, 16: 383-393. (SCI;研究生第1作者,本人通讯作者).
52. Mingxin Liu, Enlong Liu*. Dynamic mechanical properties of artificial jointed rock samples subjected to cyclic triaxial loading. International Journal of Rock Mechanics & Mining Science, 2017, 98: 54-66. (SCI;研究生第1作者,本人通讯作者).
53. De Zhang, Enlong Liu*, Xingyan Liu, Ge Zhang, Bingtang Song. A new strength criterion for frozen soils considering the influence of temperature and coarse-grained contents. Cold Regions Science and Technology, 2017, 143: 1-12. (SCI;研究生第1作者,本人通讯作者).
54. Enlong Liu, Hai-Sui Yu, Cheng Zhou*, et al. A binary-medium constitutive model for artificially structured soils based on the disturbed state concept (dsc) and homogenization theory. International Journal of Geomechanics, 2017. 04016154: 1-15. (SCI)
55. Enlong Liu, Yuanming Lai, Mengke Liao, Feng Hou, Xingyan Liu. Fatigue and damage properties of frozen silty sand samples subjected to cyclic triaxial loading. Canadian Geotechnical Journal, 2016, 53: 1939-1951. (SCI).
56. Enlong Liu, Shengshui Chen, YuanmingLai, Wei Wei, Zhongzhi Fu. Particle breakage of artificially crushable materials subject to drained cyclic triaxial loading. Soil Dynamics and Earthquake Engineering, 2016, 89:262-268. (SCI)
57. Liu Enlong*, Hai-Sui Yu, Deng Gang, et al. Numerical Analysis of Seepage-Deformation in Unsaturated Soils. Acta Geotechnica, 2014, 9: 1045-1058. (SCI).
58. Enlong Liu, Siming He. Effects of cyclic dynamic loading on the mechanical properties of intact rock samples under confining pressure conditions. Engineering Geology, 2012,125:81-91. (SCI).
59. Enlong Liu, Runqiu Huang, Siming He. Effects of Frequency on the Dynamic Properties of Intact Rock Samples Subjected to Cyclic Loading under Confining Pressure Conditions. Rock Mechanics and Rock Engineering, 2012, 45: 89-102. (SCI).
60. Enlong Liu, Chen Shengshui, Li Guoying. Breakage and Deformation Mechanism of Crushable Blocky Materials. International Journal of Rock Mechanics and Mining Sciences, 2012, 49: 125-133. (SCI) .
61. Enlong Liu, Siming He*, Xinhua Xue, et al. Dynamic Properties of Intact Rock Samples Subjected to Cyclic Loading under Confining Pressure Conditions. Rock Mechanics and Rock Engineering, 2011, 44: 629-634. (SCI)
62. Enlong Liu. Breakage and Deformational Mechanism of Crushable Granular Materials. Computers and Geotechnics, 2010,37(5): 723-730. (SCI)
63. E.L Liu*, H.L. Xing. A double hardening thermo-mechanical constitutive model for overconsolidated clays. Acta Geotechnica , 2009(4):1-6. (SCI) .
64. 郑青松, 刘恩龙*, 刘明星. 三轴试验下结构面倾角对制备岩样力学特性的影响. 岩土力学, 2019, 40(5): 1854-1861. (EI;研究生第1作者,本人通讯作者).
65. 张德, 刘恩龙*, 刘星炎, 等. 冻土二元介质模型探讨-以-6℃冻结粉土为例. 岩土工程学报, 2018, 40(1): 82-90. (EI;研究生第1作者,本人通讯作者).
66. 张德, 刘恩龙*, 刘星炎, 等. 冻结粉土强度准则探讨. 岩土力学, 2018, 39(9): 1001-1009. (EI;研究生第1作者,本人通讯作者).
67. 何淼, 刘恩龙*, 陈亚军, 唐勇. 不排水条件下轴向加卸载时结构性土的力学特性探讨. 岩石力学与工程学报, 2017, 36(2): 466-474. (EI;研究生第1作者,本人通讯作者).
68. 刘恩龙*,刘明星,陈生水,傅中志. 基于热力学和微极理论考虑颗粒破碎的微观力学模型. 岩土工程学报, 2015, 276-283.(EI).
69. 刘恩龙, * 罗开泰, 张树祎. 初始应力各向异性结构性土的二元介质模型. 岩土力学.2013, 34(11): 3103-3109. (EI;研究生第1作者,本人通讯作者).
70. 罗开泰,聂 青,刘恩龙*. 人工制备初始应力各向异性结构性土方法探讨. 岩土力学, 2013, 34(10): 2815-2820. (EI;研究生第1作者,本人通讯作者).
71. 刘恩龙*, 陈生水, 李国英, 米占宽, 韩华强. 循环荷载作用下考虑颗粒破碎的堆石体本构模型. 岩土力学. 2012, 33(7): 1972-1978. (EI).
72. 刘恩龙*, 黄润秋, 何思明. 循环加载时围压对岩石动力特性的影响. 岩土力学,2011, 32(10): 3009-3013. (EI).
73. 刘恩龙,沈珠江.人工制备结构性土力学特性试验研究. 岩土力学.2007,28(4),679-683. (EI).
74. 刘恩龙,沈珠江. 结构性土强度准则探讨. 工程力学.2007,24(2):50-55. (EI).
75. 刘恩龙,沈珠江. 结构性土压缩曲线的数学模拟. 岩土力学,2006,27(4):615-620. (EI).
76. 刘恩龙,沈珠江. 岩土材料不同应力路径下脆性变化的二元介质模拟. 岩土力学,2006,27(2): 261-267. (EI).
77. 刘恩龙,沈珠江. 不同应力路径下结构性土的力学特性. 岩石力学与工程学报. 2006,25(10):2058-2064. (EI).
78. 刘恩龙,沈珠江. 结构性土的强度准则. 岩土工程学报,2006,28(10):1248-1252. (EI).
79. 刘恩龙,沈珠江. 结构性土的二元介质模型. 水利学报, 2005,36(4):391-395.