王環玲

發布時間:2021-12-28

王環玲教授,博士生導師,國家級重大人才計劃入選者,江蘇省“十佳研究生導師團隊”核心成員,江蘇省高校“青藍工程”中青年學術帶頭人,江蘇省岩土力學與環境國際合作實驗室副主任,科技部教育部重大水電工程多場耦合力學學科創新引智基地學術帶頭人。中國岩石力學與工程學會岩體數學物理模拟專委會副主任,滑坡與邊坡分會常務理事,岩石工程設計方法分會常務理事,中國大壩協會數值模拟專委會委員。獲省部級科技進步特等獎1項(排名3),一等獎6項(2項排名1),二等獎2項(1項排名1),主持承擔了國家重點研發計劃課題、國家自然科學基金等重大科技項目20餘項,部分成果在瀾滄江、金沙江、雅砻江流域重大水電工程建設和防災減災實踐中得到重要應用。

教育及工作經曆:

2003.3-2006.3,河海大學 岩土工程 博士

2000.9-2003.6,中國地質大學(武漢) 岩土工程 碩士

1996.9-2000.6,中國地質大學(武漢) 水文地質與工程地質本科

2012.8-2013.8 法國國家科研中心裡爾力學研究所(LML, CNRS)和法國裡爾科技大學(USTL)訪問學者

2014.7-2015.7 加拿大多倫多大學(University of Toronto)工學院高級訪問學者

2014.7 破格聘為博士生導師;2015.7 聘為教授(2020年聘為教授三級)

研究方向

1)岩土工程081401

岩石力學與工程

岩石滲流力學基本理論與試驗

地質災害防治與環境保護

多尺度多物理場耦合理論與計算方法

2)水利工程081505

岩土-結構-水流相互作用

工程結構物及其與周圍介質相互作用

學術兼職:

江蘇省岩土力學與環境國際聯合實驗室副主任

科技部教育部重大水電工程多場耦合力學學科創新引智基地學術帶頭人

中國岩石力學與工程學會岩體數學物理模拟專委會副主任

滑坡與邊坡分會常務理事

岩石工程設計方法分會常務理事

中國大壩協會數值模拟專委會委員

岩土體多場耦合專委會委員

主講課程

研究生課程

現代岩土力學(博士生課程)

高等岩石力學(碩士生課程)

Advanced rock and soil mechanics(留學生課程)

    本科生課程

岩石力學

工程師文化

研究課題

1. 國家重點研發計劃課題(2018YFC1508501):堰塞壩病險情辨别與探測技術,2018.12-2021.12

2. 雲南省重大科技專項計劃項目(522011912):複雜賦存條件下的紅層軟岩隧洞工程施工期關鍵技術研究,2022.1-2024.12

3. 國家重點研發計劃專題(2017YFC1501101):水動力型特大滑坡破壞機制與失穩判識模型,2018.01-2021.12

4. 國家自然科學基金(11772116):高滲壓作用下岩石滲流流變力學特性的試驗與模型研究,2018.01-2021.12

5. 國家自然科學基金(11572110): 各向異性柱狀節理岩體滲流應力耦合試驗與力學模型研究,2016.01-2019.12

6. 國家自然科學基金(11272113):低滲透岩石滲透特性測試及滲流應力耦合實驗研究,2013.01-2017.12

7. 國家自然科學基金(51009052):層狀裂隙岩體流-固耦合作用下的變形機理與工程應用研究,2011-2013

8. 江蘇省自然科學基金(BK2012809):低滲透岩石流-固耦合機理實驗及數值模型研究,2012.01-2014.12

9. 國家自然科學基金(51479049): 岩石滲流應力耦合流變力學實驗及本構模型研究,2012-2015

10. 國家十二五科技支撐計劃課題(2012BAK03B04):石油儲備地下水封洞庫工程安全技術,2012.01-2014.12

11. 國家十二五科技支撐計劃專題(2013BAB06B01-1):瀾滄江流域庫群系統安全的主要風險源及其作用機制,2013.01-2015.12

12. 國家重點基礎研究發展計劃(973)項目:大型水利水電工程高陡邊坡全生命周期性能演化與安全控制第四課題,2011.01-2016.12

13. 江蘇省教育教改項目,2012-2014

14. 重大工程科技項目(822007616):金沙江白鶴灘水電站庫區王家山滑坡穩定性和湧浪三維數值分析研究,2021.9-2022.6

15. 重大工程科技項目:深中通道項目深水深槽鑿岩施工技術開發研究,2020.1-2022.12

16. 重大工程科技項目:滇中引水工程項目滇中紅層軟岩多尺度水岩耦合力學規律及力學特性劣化機理,2021.1-2023.12

17. 重大工程科技項目:滇中引水工程項目滇中紅層軟岩隧洞圍岩變形破壞特征與災變演化機制,2021.1-2023.12

18. 重大工程科技項目:滇中引水項目紅層軟岩流變力學特性實驗研究及紅層軟岩隧洞饋控模拟分析,2019-2021

19. 重大工程科技項目:RM水電站可行性研究階段水庫蓄水RS堆積體失穩機理及湧浪傳播試驗研究(817058916,2020.7-2022.12

20. 重大工程科技項目:特高壩工程壩基滲流應力流變力學與工程安全,2018-2020

21. 重大工程科技項目:白鶴灘水電站高壩壩基滲流應力耦合作用下的長期安全性研究,2014-2016

22. 重大工程科技項目:金沙江白鶴灘水電站各向異性岩石力學特性及模型研究,2009-2013

23. 重大工程科技項目:東嶺信滑坡堆積體穩定性分析與防治預警研究,2013-2014

24. 重大工程科技項目:白鶴灘水電站柱狀節理玄武岩室内三軸壓縮岩石力學試驗,2015.6-2017.8

25. 重大工程科技項目:白鶴灘水電站玄武岩室内岩石力學試驗,2015.6-2016.1

26. 重大工程科技項目:瀾滄江糯紮渡水電站樞紐區右岸下遊護岸洩洪霧雨區邊坡研究,2006-2007

27. 揭榜挂帥專題:雅下重大水電開發滑坡災害鍊及防災減災研究,2021.1-2023.12

28. 重大工程科技項目:面向YX水電建設的高位高危滑坡災害鍊分析及數值模拟研究, 2022.3-2023.12

29. 重大工程科技項目:西藏LCBDa水電站樞紐區工程邊坡數值計算及模型研究,2023.3-2024.12

論著

  1.王環玲,徐衛亞.緻密岩石滲透測試技術與滲流力學特性,科學出版社,2015

2.徐衛亞, 張超, 王如賓, 王環玲, 趙海斌. 大型地下水封洞庫圍岩流變力學與長期安全性分析,科學出版社,2016

部分論文

1. Wang, HL., Jiang, Z., Xu, W., Wang, R., & Xie, W. (2022). Physical model test on deformation and failure mechanism of deposit landslide under gradient rainfall. Bulletin of Engineering Geology and the Environment, 81(1), 1-14.doi.org/10.1007/s10064-021-02566-y

2. Xiao Qu, Huanling Wang*, Wei‑chau Xie, Hangsheng Ma. Experimental investigation on dynamic compressive mechanical properties of weathered granite and statistical damage constitutive model. Bulletin of Engineering Geology and the Environment (2023) 82:313, https://doi.org/10.1007/s10064-023-03326-w

3. S. Liu, H. Wang*, X. Qu, and Z. Cheng, “Experimental Investigation and Energy Evolution of Brittle Limestone Subjected to Multistage Cyclic Loading,” Geotechnical Testing Journal, 2023, https://doi.org/10.1520/GTJ20220127

4. S. Liu, H. Wang*, X. Qu, Bing Pan,Wei-chau Xie. Experimental Investigation on the Effect of Strain Rate on Brittle Limestone in Postearthquake Landslide Area. Pure and Applied Geophysics, 2023, https://doi.org/10.1007/s00024-023-03294-y

5. Zhang T, Xu WY, Wang HL, Wang RB, Yan L, Xu JR (2023) Anisotropic Strength, Deformability, and Failure Behavior of Artificial Columnar Jointed Rock Masses under Triaxial Compression. Journal of Materials in Civil Engineering 35(3) https://doi.org/10.1061/(ASCE)MT.1943-14

6. Huanling Wang*, Shiqi Liu*, Xiao Qu, Ruibiao Zhan, Zengping Liao.Field investigations on rock fragmentation under deep water through fractal theory. Measurement199 (2022) 111521

7. Zhang T, Xu WY, Wang HL*, Wang RB, Shi AC (2022) Experimental Investigations on short-term and creep anisotropic mechanical behavior of artificial columnar jointed rock masses. Rock Mechanics and Rock Engineering 55:5393-5413. https://doi.org/10.1007/s00603-022-02880-1

8. Zhang T, Xu WY, Wang HL*, Wang RB, Yan L, Shi AC (2022) Anisotropic mechanical characteristics and energy evolution of artificial columnar jointed rock masses subjected to multi-level cyclic loading. International Journal of Fatigue 165https://doi.org/10.1016/j.ijfatigue.2022.107215

9. Tao Zhang , Weiya Xu , Huanling Wang *, RuBin Wang , Long Yana, MingTao Hu. Anisotropic mechanical behaviour of columnar jointed rock masses subjected to cyclic loading: An experimental investigation. International Journal of Rock Mechanics and Mining Sciences. 148 (2021) 104954

10. Wang HL*; Liu SQ; Xu WY; Yan L; Xie WC. (2020). Numerical investigation on the sliding process and deposit feature of an earthquake-induced landslide: a case study. Landslides. 17(9):2671-2682. Doi: 10.1007/s10346-020-01446-y

11. Jiang ZH; Wang HL*; Xie WC. (2021). Deformation mechanism of deposit landslide induced by fluctuations of reservoir water level based on physical model tests. Environmental Earth Sciences. 80(11). Doi: 10.1007/s12665-021-09673-9

12. Wang Z; Wang HL*; Xu WY. (2021). Effect of rotated anisotropy of soil shear strength on three-dimensional slope stability: a probabilistic analysis. Bulletin of Engineering Geology and the Environment. 80(8):6527-6538. Doi: 10.1007/s10064-021-02336-w

13. Cheng ZC ; Wang HL*; Xu WY ; Yan L. (2021). Numerical investigation of the flow characteristics and permeability of 2D irregular columnar jointed rock masses. Engineering Computations. 38(10):4091-4110. Doi: 10.1108/EC-10-2020-0603

14. Wang Z; Wang HL*; Xu WY; Xie WC. (2021). Slope stability analysis considering the rotated anisotropy in soil properties. Engineering Computations. 58(9):1365-1378. Doi: 10.1139/cgj-2019-0611

15. Zhang TXu WYWang HL*Wang RBYan LHu MT. (2021). Anisotropic mechanical behaviour of columnar jointed rock masses subjected to cyclic loading: An experimental investigation. International Journal of Rock Mechanics And Mining Sciences. DOI: 10.1016/j.ijrmms.2021.104954

16. Xiang ZP; Wang HL*; Xu WY;  Xie WC. (2020). Experimental Study on Hydro-mechanical Behaviour of Anisotropic Columnar Jointed Rock-Like Specimens. Rock Mechanics and Rock Engineering. 53(12):5781-5794. Doi: 10.1007/s00603-020-02245-6

17. Liu SQ; Wang HL*; Xu WY; Cheng ZC; Xiang ZP; Xie WC. (2020). Numerical Investigation of the Influence of Rock Characteristics on the Soil-Rock Mixture (SRM) Slopes Stability. KSCE Journal of Civil Engineering. 24(11):3247-3256. Doi: 10.1007/s12205-020-0034-1

18.  Qing xiang Meng; Huangling Wang*; Ming Cai; Weiya Xu; Xiaoying Zhuang; Timon Rabczuk. (2020). Three-dimensional mesoscale computational modeling of soil-rock mixtures with concave particles. Engineering Geology. 277. Doi.org/10.1016/j.enggeo.2020.105802

19. Huanling Wang*, Kai Zhao, Xiao Qu, Jianrong Xu, Ming Cai. Hydro-mechanical properties of rock-like specimens with pre-existing intermittent joints. European Journal of Environmental and Civil Engineering. 2020. DOI: 10.1080/19648189.2020.1763853

20. Jiang ZH; Wang HL*; Xu JR; Chen HJ; Xie WC. (2020). Variation of permeability of natural filled jointed rock under repeated loading and unloading conditions. European Journal of Environmental and Civil Engineering, 1-13.

21. Huang, W; Wang, HL*; Zhang, T; He, MJ; Yan, L. (2020). Hydraulic pressure effect on mechanical properties and permeabilities of layered rock mass: an experimental study. European Journal of Environmental and Civil Engineering, DOI: 10.1080/19648189.2020.1763844.

22. Meng QX; Wang HL*; Xu WY; Chen YL. (2019). Numerical homogenization study on the effects of columnar jointed structure on the mechanical properties of rock mass. International Journal of Rock Mechanics and Mining Sciences, 124:104127.

23. Meng QX; Wang HL*; Xu WY; Cai M; Xu JR; Zhang Q. (2019). Multiscale strength reduction method for heterogeneous slope using hierarchical FEM/DEM modeling. Computers and Geotechnics, 115:103164.

24. Susheng Wang, Huanling Wang*, Weiya Xu, Ming Cai. (2019). A coupled elasto-plastic damage model for fine-grained sandstone under triaxial compression and lateral extension loading conditions, European Journal of Environmental and Civil Engineering, (3), 1-17.

25. Huanling Wang* , Weiya Xu, Cai Ming, Zhipeng Xiang, Kong Qian, Gas permeability and porosity evolution of a porous sandstone under repeated loading and unloading conditions, Rock Mechanics & Rock Engineering, 2017, 50(8), 2071-2083.

26. H.L.Wang*; W.Y.Xu; C. J. Jia,;M.Cai; Q. X. Meng(2016). Experimental Research on  Permeability Evolution with  Microcrack Development in Sandstone under Different Fluid Pressures, Journal of Geotechnical and Geoenvironmental Engineering, DOI:10.1061(ASCE) GT.1943-5606.0001462.142(6)

27. Huanling Wang *, Weiya Xu, Zaobao Liu, Zhiming Chao, Qingxiang Meng, Dependency of hydromechanical properties of monzonitic granite on confining pressure and fluid pressure under compression. International Journal of Modern Physics B, 2016, 30(16):1650086. 2016, 30(16), 1-15

28. Qingxiang Meng, Huanling Wang*, Weiya Xu, Qiang Zhang. A coupling method incorporating digital image processing and discrete element method for modeling of geomaterials. Engineering Computations, 2017, 35(1), 46-54.

29. Huanling Wang*Weiya Xu, Ming Cai, Mechanical properties of altered granite gneiss considering time effect, Geomechanics and Geoengineering, 2017, 12(3), 215-219.

30. Meng Q X, Wang H L*, Xu W Y, et al. A numerical homogenization study of the elastic property of a soil-rock mixture using random mesostructure generation. Computers & Geotechnics, 2018, 98(6):48-57

31. H. L. Wang*; W. Y. Xu; M. Cai; J. Zuo.An Experimental Study on the Slippage Effect of Gas Flow in a Compact Rock. Transport in Porous Media.DOI 10.1007/ s11242- 016- 0635-9

32. Wang Huanling*Xu WeiyaZuo JingCompact rock material gas permeability propertiesPhysica B:Physics of Condensed Matter2014449(6)10-18

33. Wang huanling*xu weiyashao jianfuExperimental Researches on Hydro-Mechanical Properties of Altered Rock Under Confining PressuresRock Mechanics and Rock Engineering.2014,(47)485-493

34. wang huanling* xu weiyaPermeability Evolution Laws and Equations during the Course of Deformation and Failure of Brittle RockJournal of Engineering Mechanics2013,139(11)1621-1626

35. WANG Huan-ling*, XU Wei-yaZHU Feng.The mechanical response of piles with consideration of pile-soil interactions under a periodic wave pressure. Journal of Hydrodynamics2014266):921-930  

36. Wang huanling*,Weiya Xu,Jianfu Shao,Frederic Skoczylas. The gas permeability properties of low-permeability rock in the process of triaxial compression test. Materials Letters, 2014, 1161: 386-388

37. Wang huanling*, xu weiya. Stability of Liangshuijing landslide under variation water levels of Three Gorges Reservoir, European Journal of Environmental and Civil Engineering, 2013, 17(1): 158-173

38. Wang Huan-ling* , Chu Wei-jiangHe Miao. Anisotropic permeability evolution model of rock in the process of deformation and failureJournal of Hydrodynamics2012241):25-31

39. Wang, S. N.Shi, C. Xu, W. Y.Wang, H. L.Zhu, Q. Z. Numerical direct shear tests for outwash deposits with random structure and composition Granular Matter2014165):771-783

40. Huan-ling Wang*, Wei-ya Xu, Long Yan, Qing-xiang Meng, Ru-bin Wang, Hai-bin Zhao, Wei-chau Xie. Investigation on time-dependent behaviour and long-term stability of underground water-sealed cavern. European Journal of Environmental and Civil Engineering, 19, 119–139, 2015

41. Lin, Zhinan, Xu, Weiya, Wang, Wei , Zhang, JiuchangWang,HuanlingWang, Rubin. Experimental Study on Hydraulic and Macro-Mechanical Property of a Mortar under Heating and Cooling TreatmentJournal of Advanced Concrete Technology2016.5.01145):261~270

42. J. C. Zhang, W. Y. Xu, H. L. Wang, R. B. Wang and Q. X. Meng. 2016. Testing and modeling of the mechanical behavior of dolomite in the Wudongde hydropower plant. Geomechanics and Geoengineering: An International Journal. DOI: 10.1080/17486025.2016.1151557

43. J.C. Zhang, W.Y. Xu, H.L. Wang, R.B. Wang, Q.X. Meng, S.W. Du. A coupled elastoplastic damage model for brittle rocks and its application in modelling underground excavation, International Journal of Rock Mechanics and Mining Sciences, http://dx.doi.org/10.1016/j.ijrmms.2015.11.011

44. W.Y. Xu, Q. Zhang, R.B. Wang, H.L. Wang, R.K. Wang, W.C. Xie. Mechanism of continuous movement and long-term safety analysis of Baitieba landslide based on field monitoring data and numerical simulation. European Journal of Environmental and Civil Engineering, 19, s140–s154, 2015.

45. Q.-X. Meng, H.-L. Wang*, W.-Y. Xu, W.-C. Xie, R.-B. Wang, J.-C. Zhang. Robust equivalent tunnelling Mohr–Coulomb strength parameters for generalised Hoek–Brown media. European Journal of Environmental and Civil Engineering, 2015, http://dx.doi.org/10.1080/19648189.2015.1084380.

46. Yan L, Meng Q, Xu W Y, Wang H L, Zhang Q. A numerical method for analysing the permeability of heterogeneous geomaterials based on digital image processing. Journal of Zhejiang Universityence A, 2017, 18(2):124-137.

47. Wang huanling*Xu weiyaRelationship Between Permeability and Strain of Sandstone During the Process of Deformation and Failure, Geotech Geol Eng2013,311):347-353.I

48. 王環玲*, 徐衛亞,左婧,邵建富,賈朝軍,基于氣滲的低滲透岩石滲透率與孔隙率演化規律研究,水利學報,2015.1.146(1)58~66

49. 王環玲*,徐衛亞,巢志明,孔茜,緻密岩石氣體滲流滑脫效應試驗研究,岩土工程學報,2015.11.01,(05):777-785

50. 賈朝軍,王環玲*,徐衛亞,左靖,Skoczylas F,地下水封洞庫圍岩氣體滲透特性及滑脫效應研究,工程力學,2015.8.0132(8)50-58

51. 孔茜,王環玲*,徐衛亞,循環加卸載作用下砂岩孔隙度與滲透率演化規律試驗研究,岩土工程學報,2015.01.0137(10)1893-1901

52. 巢志明,王環玲*,徐衛亞,賈朝軍,夏季,柱狀節理岩體滲透性模型試驗研究,岩土工程學報,201608):1407-1416

53. 趙恺, 王環玲* ,徐衛亞,夏季.貫通充填裂隙類岩石滲流特性試驗研究,岩土工程學報, 201739(6), 1130-1136

54. 巢志明, 王環玲*, 徐衛亞, 楊蘭蘭, 趙恺.不同飽和度砂岩滲透率、孔隙度随應力變化規律研究. 岩石力學與工程學報, 2017, 36(3), 665-680.

55. 巢志明, 王環玲*, 徐衛亞,賈朝軍,方應東. 不同含水飽和度低滲透岩石氣體滑脫效應研究. 岩土工程學報, 2017, 39(12):2287-2295.

56. 巢志明, 王環玲*, 徐衛亞, 吉華,趙恺.循環加卸載下柱狀節理材料滲透率和孔隙度演化規律研究. 岩石力學與工程學報,2017,36(1):124-141.

57. 巢志明,王環玲*,徐衛亞,賈朝軍,趙 恺.一種快速制備不同含水飽和度岩石試樣的方法,岩土力學,2108,3:

58. 王環玲, 徐衛亞, 童富國. 洩洪霧雨作用下邊坡飽和非飽和非穩定滲流研究. 岩土力學, 2006,(27): 331-336

59. Zhipeng XiangHuanling Wang (#)Weiya XuLiangquan Liand Ming Cai. Mechanical Behavior of Rock-Like Specimens with Hidden Smooth Joints under Triaxial Compression [J]. Journal of Materials in Civil Engineering,2019,31(7),140-150.

60. Lanlan Yang, Weiya Xu*, Qingxiang Meng, Wei-Chau Xie, Huanling Wang, Mengcheng Sun. Numerical Determination of RVE for Heterogeneous Geomaterials Based on Digital Image Processing technology. Processes, 2019, 7(6): 346

61. Wang S, Wang H, Xu W, et al. Investigation on mechanical behaviour of dacite under loading and unloading conditions. Géotechnique Letters, 2019: 1-6.

62. Liu, S., Wang, H. (#), Xu, W., & Xiang, Z. (2019). The influence of water saturation and confining pressure to gas porosity and permeability of sandstone. Environmental earth sciences, 78(6), 182-192

63. 王環玲*, 沙聰, . 基于顆粒離散元的土石混合體強度影響研究[J]. 土木工程學報, 2020,53(9),106-114.

64. 王環玲*,沙聰,孟慶祥.考慮孔隙率和不均勻系數的土石混合體顆粒流分析[J].河海大學學報(自然科學版),2019,47(03):251-258.

65. 柯志強,王環玲*,徐衛亞,林志南,吉華.含橫向節理的柱狀節理岩體力學特性試驗研究[J].岩土力學,2019,40(02):660-667.

66. 王環玲*,屈曉,王如賓,劉士奇. 堰塞壩堆積演化過程及開發利用研究進展[J].中國地質災害與防治學報,2021,32(1), 11.

近期授權國家發明專利:

1. 一種緻密岩石材料氣體滲透率測試裝置及測算方法ZL 2013 1 0085675.62014

2. 用于層狀裂隙灰岩試驗的裂紋系統試件的制備方法ZL 2012 1 0534517.X2014

3. 柱狀節理岩體滲透張量測試方法及各向異性定量評估方法ZL 201510737468.3

4. 一種确定裂隙岩體表征單元體積的方法 ZL 201511022607.02017

5. 一種快速制備不同含水飽和度試樣的方法ZL 201510364803.X2017

6. 确定裂隙岩體不同方向滲透率對孔隙度敏感程度的方法ZL 201610064275.02018

7. 一種岩石氣體滲透測定裝置及測定方法ZL 2012 1 0590766.02015

8. 一種岩土體材料快速矢量化方法ZL 201510014421.42017

9. 一種柱狀節理岩體邊坡錨索支護方法 ZL 201510747404.12017

10. 一種原位柱狀節理岩石的試驗模型制備方法ZL 201510060098.42017

11. 一種等效結點荷載的通用精确積分計算方法ZL 201510020173.42017

12. 一種含隐節理的類岩石試樣制備裝置及制備方法  ZL201710139612.22019

13. 一種緻密無填充裂隙岩體試樣的制備方法 ZL201710053540.X2019

14. 确定岩石試驗中産生滑脫效應的隐節理密度阈值的方法ZL201710050242.52019

15. 确定裂隙岩體不同方向滲透率對孔隙度敏感程度的方法ZL 201610064275.02018

16. 柱狀節理岩體滲透張量測試方法及各向異性定量評估方法ZL201510737468.32018

17.  一種定量确定裂隙岩體滲透各向異性的方法ZL 201610065036.72018

18. 一種含充填隐節理的柱狀節理岩體試樣的制備方法ZL 201511023783.62018

19. 一種基于3D打印技術的非貫通裂隙岩體試樣的制備方法ZL 201511019619.82018

20. 一種含無充填隐節理的柱狀節理岩體試樣的制備方法ZL 201511016772.52018

21. 一種基于3D打印技術的貫通裂隙岩體試樣的制備方法ZL 201511018137.02018

22. 一種基于盲信息的堆積體滑坡安全評價方法ZL 201610256635.72018

23. 一種含隐節理的類岩石試樣制備裝置及制備方法ZL201710139612.2,2019

24. 一種緻密無填充裂隙岩體試樣的制備方法ZL201710053540.X,2019

25. 确定岩石試驗中産生滑脫效應的隐節理密度阈值的方法ZL201710050242.5, 2019

26. 一種咬合節理岩體周期性結構模型的生成方法ZL201710650965.9, 2019

27. 一種确定岩石相對滲透率的方法ZL201810338314.0,2019

28. 一種确定岩石有效應力系數的方法ZL201710403114.4,2020

29. 确定充填節理岩石壓密所需最小循環加卸載次數的方法ZL201810323908.4, 2019

30. 岩石滲流應力耦合過程中滲透率與孔隙率關系的确定方法ZL201910602768.92020

31. 一種無已知底滑面的滑坡滑動過程模拟方法ZL201910168033X

32. 一種在塊體離散元中确定柱狀節理岩石節理剛度的方法ZL201910661442.3

33. 一種岩石流變加載條件下多氣體滲流測試裝置及測試方法ZL201911085405.9

34. 一種測試滑坡穩定性的物理模型試驗裝置及測試方法ZL201910681406.3

35. 一種不規則柱狀節理類岩石試樣的制備方法 ZL201910602761.7

36. 一種基于粒子群優化算法的滑坡區間穩定性分析方法ZL201910840635.5

37. 模拟邊坡地震動力失穩的振動台試驗模型箱及試驗方法ZL20191067536.2

38. 一種低滲透多孔介質材料的流固耦合模型構建方法ZL201810874858.9

39. 一種确定高海拔寒區岩石凍融損傷程度的方法ZL201810323991.5

40. 一種基于網格化的顆粒模型損傷表征方法ZL 202010205959.4

41. 一種基于礦物晶粒定向發育的各向異性岩石建模方法ZL202010205954.1

42. 一種考慮晶粒咬合的各向異性岩石建模方法ZL202010205967.9

43. 一種基于多源聲呐定位的水下滑坡體變形監測裝置和方法ZL202010610338.4

44. 一種滑坡湧浪模型試驗裝置及滑坡湧浪測試方法ZL202010534375.1

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46. 一種鑿岩棒鑿擊速度可控的水下岩石清理平台及清理方法ZL202010608491.3

47. 一種分段式中空排水預應力讓壓錨杆及其支護方法ZL202010768397.4

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近期獲批軟件著作權:

1. 各向異性岩體三維滲流應力耦合分析軟件V1.02014SR0136222014 

2. 工程岩體三維後處理可視化軟件V1.0 2014SR0136252014

3. 三維非線性有限元分析軟件V1.02014SR0136272014 

4. 各向異性岩體飽和非飽和三維滲流分析軟件V1.02014SR0136312014 

5. 工程岩體三維程序建模軟件V1.02014SR0136232014

6. 基于水平集法的極限平衡有限元邊坡穩定性分析軟件,2015SR2154792015

7. 彈塑性損傷本構開發軟件V1.02017SR7232562017

8. 土石混合體顆粒模型轉化程序V1.0 2019SR11587572019

9. 基于粒子群優化算法的區間極限平衡邊坡穩定性分析軟件V1.0, 2019SR06186032019

10.松動碎裂岩體連續-非連續耦合多尺度數值仿真軟件 2019

11.岩石真三軸力學試驗數據處理及強度準則軟件 2019

12. 考慮岩石局部化效應本構模型開發軟件V1.0 2019

13.土石混合體顆粒模型轉化程序V1.0 2019SR11587572019

14.基于優化算法和區間理論的滑坡有限元極限平衡分析軟件[簡稱POS_FLEM]1.0,  2020SR0970591 2019.

15.塊體離散元位移反分析軟件V1.02020SR0975562020

16.抗滑樁最優參數篩選程序V1.02020SR12615072020

 

獎勵與榮譽

2022年,國家級重大人才計劃入選者

2022年,岩石力學與防災減災研究生導師團隊,獲評為江蘇省“十佳研究生導師團隊”

2022年,滑坡緻災力學機理及災害鍊演化研究與工程應用,水力發電科學技術獎,一等獎

2022年,依托高水平國際合作與交流,岩石力學與防災減災高質量人才培養模式與實踐,河海大學教學成果一等獎

2020年,依托國家重大工程建設,高質量拔尖創新工程人才培養模式與實踐,河海大學教學成果一等獎

2019年,柱狀節理玄武岩壩基松弛控制關鍵技術及在特高拱壩工程中的應用,中國大壩工程學會科學技術獎,一等獎

2018工程岩石滲流力學及應用江蘇省科學技術獎二等獎

2018,各向異性岩石力學特性力學模型及工程應用,水力發電科學技術獎,一等獎

2016年,岩石滲流-應力-流變耦合理論研究與工程應用,水力發電科學技術獎,一等獎

2013年,水利水電工程大型堆積體特性及失穩防控研究,水力發電科學技術獎,特等獎

2013年,多場耦合多尺度岩石力學研究,江蘇省科學技術獎,二等獎

2010年,大型水電工程岩石高邊坡工程安全理論研究與工程應用,大禹水利科學技術進步獎,一等獎

2010河海大學教學成果獎二等獎

2014年,江蘇省高校“青藍工程”優秀青年骨幹教師

2019年,江蘇省高校“青藍工程”中青年學術帶頭人

聯系方式

河海大學西康路校區科學館1009

E-mailwanghuanling@hhu.edu.cn

電話:025-83787379



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