張科教授-昆明理工大學

姓名	張科	性別	男
出生年月	1986年11月	學位	博士
職稱	教授	博導/碩導	博導
工作單位	昆明理工大學	職務	副院長
電子郵箱	[email protected]
研究方向	1.巖土力學——巖石力學與巖質(zhì)邊坡工程 2.巖土力學——巖體3D打印物理重構 3.巖土力學——非接觸式測量
學術兼職	1.云南省水利學會常務理事 2.云南省巖土力學與工程學會副秘書長 3.中國巖石力學與工程學會青年工作委員會委員
學習經(jīng)歷	2009.06 - 2015.05 中南大學資源與安全工程學院獲工學博士學位 2005.09 - 2009.06  中南大學資源與安全工程學院獲工學學士學位
工作經(jīng)歷	2021.11 - 至今 昆明理工大學電力工程學院 教授 2016.08 - 2021.11 昆明理工大學電力工程學院 副教授 2015.07 - 2016.08  昆明理工大學電力工程學院 講師
科研項目	1.干濕循環(huán)作用下裂隙巖體變形破裂與紅外輻射特征相關性研究, 國家自然科學基金/青年科學基金, No.11902128 2.層狀巖體破裂過程紅外輻射前兆特征提取與智能識別研究, 國家自然科學基金/地區(qū)科學基金, No.42362034 3.基于“孔洞型”兩體斷裂力學模型的灌漿體與裂隙巖體相互作用機制研究, 國家自然科學基金/地區(qū)科學基金, No.41762021 4.高位高能危巖失穩(wěn)-運動機理及智能防災基礎理論研究, 云南省基礎研究計劃/重點項目, No.202301AS070373 5.巖質(zhì)高邊坡災變失穩(wěn)的紅外輻射前兆特征識別研究, 云南省“興滇英才支持計劃”青年人才專項后續(xù)項目, No.KKS2202004006 6.高海拔寒區(qū)露天礦開采誘發(fā)地質(zhì)災害基礎理論研究, 云南省應用基礎研究計劃/優(yōu)秀青年項目, No.2019FI012 7.高邊坡裂隙巖體壓剪斷裂與紅外輻射特征相關性研究, 云南省應用基礎研究計劃/面上項目, No.2018FB093 8.基于斷裂力學的鎖固段型巖質(zhì)邊坡漸進破裂過程及穩(wěn)定性評判方法研究, 中國巖石力學與工程學會“青年人才托舉工程”項目, No.2016QT-6-6 9.中國博士后科學基金/特別資助, No.2017T100715 10.中國博士后科學基金/面上項目, No.2016M592717 11.節(jié)理巖質(zhì)邊坡漸進滑移破壞的斷裂力學機制研究, 云南省人才培養(yǎng)項目, No.KKSY201504049
獎勵與榮譽	1.云南省自然科學獎二等獎(1/5), 裂隙巖體復雜斷裂行為表征及穩(wěn)定性評價關鍵理論 2.綠色礦山科學技術獎(國科獎社證第0265號)基礎研究類一等獎(1/15), 礦山高陡邊坡巖體破斷多尺度表征及災變機理 3.中國巖石力學與工程學會科學技術獎（國科獎社證第0134號)自然科學獎二等獎(5/5), 節(jié)理巖體滑動斷裂機理及邊坡滑移區(qū)搜索理論 4.中國巖石力學與工程學會優(yōu)秀博士學位論文獎, 復雜地質(zhì)條件下含地質(zhì)缺陷巖質(zhì)邊坡滑移破壞機理研究 5.中國巖石力學與工程學會“青年人才托舉工程”入選者(2016-2018) 6.云南省優(yōu)秀青年基金獲得者 7.云南省“興滇英才支持計劃”青年人才專項
學術論文	[1] Li Na, Zhang Ke*, Luo Guoli, Zhang Kai. Experimental study on the size effect and anisotropy in mechanical properties of fractured rock mass based on 3D printing[J]. Theoretical and Applied Fracture Mechanics, 2024, 129: 104224. (SCI收錄) [2] Mu Dianrui, Zhang Ke*, Ma Qing*, Wang Junjie. A coupled hydro-thermo-mechanical model based on TLF-SPH for simulating crack propagation in fractured rock mass[J]. Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2024, 10: 33. (SCI收錄) [3] Liu Xianghua, Pan Zhe, Wang Jiao, Hu Qiang, Xiong Wei, Zhang Ke*. Quantitative investigation of the cracking mechanism of 3D sand-printed rock containing a fold flaw[J]. Materials & Design, 2023, 236: 112523. (SCI收錄) [4] Li Na, Zhang Ke*, Bao Rui, Fan Wenchen. Quantitative description of fracture behavior and mechanical anisotropy of fractured rock mass: Sand 3D printing and DIC explorations[J]. Theoretical and Applied Fracture Mechanics, 2023, 127: 104065. (SCI收錄) [5] Zhang Ke, Xu Yi, Zhang Kai*, Bao Rui, Fan Wenchen. Quantitative characterization of the failure behavior of dangerous rocks based on the Frozen-Thawing Test[J]. Scientific Reports, 2023, 13(1): 10476. (SCI收錄) [6] Zhang Kai, Zhang Ke*, Rui Bao. Machine learning models to predict the residual tensile strength of glass fiber reinforced polymer bars in strong alkaline environments: A comparative study[J]. Journal of Building Engineering, 2023, 73, 106817. (SCI收錄) [7] Zhang Kai, Zhang Ke*, Bao Rui. Prediction of gas explosion pressures: A machine learning algorithm based on KPCA and an optimized LSSVM[J]. Journal of Loss Prevention in the Process Industries, 2023, 83: 105082. (SCI收錄,，JCR 2區(qū),，中科院三區(qū),，IF: 3.5) [8] Zhang Ke, Zhang Kai*, Liu Wenlian, Xie Jianbin. A novel DIC-based methodology for crack identification in a jointed rock mass[J]. Materials & Design, 2023, 230: 111944. (SCI收錄) [9] Zhang Kai, Zhang Ke*, Jin Kesheng, Hu Kaifu, Xie Jianbin. Influence of intermittent opening density on mechanical behavior and fracture characteristics of 3D-printed rock[J]. Theoretical and Applied Fracture Mechanics, 2023, 124: 103764. (SCI收錄) [10] Zhang Kai, Zhang Ke*, Ye Jinming, Liu Xianghua, Fan Wenchen. An improved sand 3D printing method for better reproduction of high-strength and high-brittleness rock mechanical properties is proposed[J]. Journal of Materials Research and Technology, 2023, 26: 5037-5054. (SCI收錄) [11] Zhang Ke, Guan Shihao, Liu Xianghua*, Yao Cuixia, Yan Lei, Fan Wenchen. Macro-and micromechanical properties of flawed sandstone and their degradation mechanisms under hydrodynamic scouring[J]. Engineering Fracture Mechanics, 2023, 292: 109665. (SCI收錄) [12] Liu Xianghua, Zhang Ke*, Liu Wenlian, Xie Jianbin, Zhang Kai. Grayscale evolution characterization of the strain field and precursor identification in sandstone containing multiple flaws after freeze–thaw treatment[J]. Bulletin of Engineering Geology and the Environment, 2023, 82(1): 22. (SCI收錄) [13] Zhang Kai, Zhang Ke*, Bao Rui, Fan Wenchen, Xie Jianbin. A novel quantitative explanation for the fracture mechanism of sandstone containing a circular inclusion[J]. Fatigue & Fracture of Engineering Materials & Structures, 2023, 46(5): 1775-1791. (SCI收錄) [14] Zhang Kai, Zhang Ke*, Bao Rui, Liu Xianghua. A framework for predicting the carbonation depth of concrete incorporating fly ash based on a least squares support vector machine and metaheuristic algorithms[J]. Journal of Building Engineering, 2023, 65: 105772. (SCI收錄) [15] Zhang Ke, Li Na*. A new method to replicate high-porosity weak rocks subjected to cyclic freezing-thawing: Sand 3D printing and digital image correlation explorations[J]. International Journal of Rock Mechanics and Mining Sciences, 2022, 157: 105174. (SCI收錄) [16] Zhang Ke, Jiang Zheng, Liu Xianghua*, Zhang Kai, Zhu Hui. Quantitative characterization of the fracture behavior of sandstone with inclusions: Experimental and numerical investigation[J]. Theoretical and Applied Fracture Mechanics, 2022, 121: 103429. (SCI收錄) [17] Liu Xianghua, Zhang Ke*, Liu Wenlian, Xie Jianbin. Influence of weak inclusions on the cracking behavior of a jointed rock mass containing an opening: insights from DIC-based approaches[J]. Archives of Civil and Mechanical Engineering, 2022, 22(4): 184. (SCI收錄) [18] Zhang Ke, Zhang Kai*, Cai Chenxi, Liu Wenlian, Xie Jianbin. Displacement prediction of step-like landslides based on feature optimization and VMD-Bi-LSTM: a case study of the Bazimen and Baishuihe landslides in the Three Gorges, China[J]. Bulletin of Engineering Geology and the Environment, 2021, 80(11): 8481-8502. (SCI收錄) [19] Zhang Ke, Liu Xianghua*, Liu Wenlian, Zhang Shu. Influence of weak inclusions on the fracturing and fractal behavior of a jointed rock mass containing an opening: Experimental and numerical studies[J]. Computers and Geotechnics, 2021, 132: 104011. (SCI收錄,，JCR 1區(qū),，中科院SCI一區(qū)，TOP 期刊,，IF：5.218) [20] Zhang Ke, Liu Xianghua, Chen Yulong*, Cheng Heming. Quantitative description of infrared radiation characteristics of preflawed sandstone during fracturing process[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2021, 13(1): 131-142. (SCI收錄) [21] Zhang Ke*, Qi Feifei, Bao Rui, Xie Jianbin. Physical reconstruction and mechanical behavior of fractured rock masses[J]. Bulletin of Engineering Geology and the Environment, 2021, 80(6): 4441-4457. (SCI收錄) [22] Zhang Ke*, Chen Yulong, Fan Wencheng, Liu Xianghua, Luan Hebing, Xie Jianbin. Influence of intermittent artificial crack density on shear fracturing and fractal behavior of rock bridges: Experimental and numerical studies[J]. Rock Mechanics and Rock Engineering, 2020, 53(2): 553-568. (SCI收錄) [23] Zhang Ke*, Li Na, Liu Wenlian, Xie Jianbin. Experimental study of the mechanical, energy conversion and frictional heating characteristics of locking sections[J]. Engineering Fracture Mechanics, 2020, 228: 106905. (SCI收錄) [24] Chen Yulong, Teng Junyang, Bin Sadiq Rana Ammad, Zhang Ke*. Experimental study of bolt-anchoring mechanism for bedded rock mass[J]. International Journal of Geomechanics, 2020, 20(4): 04020019. (SCI收錄) [25] Zhang Ke*, Tan Peng, Ma Guowei, Cao Ping. Modeling of the progressive failure of an overhang slope subject to differential weathering in Three Gorges Reservoir, China[J]. Landslides, 2016, 13(5):1303-1313. (SCI收錄) [26] Zhang Ke*, Cao Ping, Ma Guowei, Wang Weihua, Fan Wencheng, Li Kaihui. Strength, fragmentation and fractal properties of mixed flaws[J]. Acta Geotechnica, 2016, 11(4):901-912. (SCI收錄) [27] Zhang Ke*, Cao Ping, Ma Guowei, Ren Feng, Li Kaihui. Stability analysis of rock slope controlled by major geological discontinuities based on the extended kinematical element method[J]. Rock Mechanics and Rock Engineering, 2016, 49(7):2967-2975. (SCI收錄) [28] Zhang Ke*, Cao Ping, Ma Guowei, Fan Wenchen, Meng Jingjing, Li Kaihui. A new methodology for open pit slope design in karst-prone ground conditions based on integrated stochastic-limit equilibrium analysis[J]. Rock Mechanics and Rock Engineering, 2016, 49(7):2737-2752. (SCI收錄) [29] Zhang Ke*, Cao Ping, Meng Jingjing, Li Kaihui, Fan Wenchen. Modeling the progressive failure of jointed rock slope using fracture mechanics and the strength reduction method[J]. Rock Mechanics and Rock Engineering, 2015, 48(2):771-785. (SCI收錄) [30] Zhang Ke*, Cao Ping. Slope seismic stability analysis on kinematical element method and its application[J]. Soil Dynamics and Earthquake Engineering, 2013, 50:62-71. (SCI收錄) [31] Zhang Ke*, Cao Ping, Bao Rui. Rigorous back analysis of shear strength parameters of landslide slip[J]. Transactions of Nonferrous Metals Society of China, 2013, 23(5):1459-1464. (SCI收錄) [32] Zhang Ke*, Cao Ping, Bao Rui. Progressive failure analysis of slope with strain-softening behaviour based on strength reduction method[J]. Journal of Zhejiang University-Science A, 2013, 14(2):101-109. (SCI收錄) [33] Zhang Ke, Cao Ping*. Modified electromagnetism-like algorithm and its application to slope stability analysis[J]. Journal of Central South University of Technology, 2011, 18(6):2100-2107. (SCI收錄) [34] Zhang Ke*, Cao Ping, Liu Ziyao, Hu Huihua, Gong Daoping. Simulation analysis on three-dimensional slope failure under different conditions[J]. Transactions of Nonferrous Metals Society of China (English Edition), 2011, 21(11):2490-2502. (SCI收錄) [35] Chen Yulong*, Irfan Muhammad, Uchimura Taro, Zhang Ke*. Feasibility of using elastic wave velocity monitoring for early warning of rainfall-induced slope failure[J]. Sensors, 2018, 18(4): 1-20. (SCI收錄) [36] Cheng Heming*, Li Gen, Dai Jifeng, Zhang Ke*, Xu Tianrui, Wei Liuchuang, Zhang Xue, Ding Dongfang, Hou Jie, Li Jianyun, Zhuang Jiangping, Tan Kaijun, Guo Ran. A fluid-structure interaction model accounting arterial vessels as a key part of the blood-flow engine for the analysis of cardiovascular diseases[J]. Frontiers in Bioengineering and Biotechnology, 2022, 10: 981187. (SCI收錄) [37] 羅國立, 張科*, 齊飛飛, 朱輝, 張凱, 劉享華. 基于3D打印的裂隙巖體力學特性尺寸效應及各向異性初探[J]. 巖土力學, 2023, 44(S1): 107-116. (EI收錄) [38] 劉享華, 張科*, 劉文連. 荷載與凍融共同作用對多裂隙砂巖能量轉(zhuǎn)化與損傷特性的影響[J]. 應用基礎與工程科學學報, 2023, 31(3): 715-730. (EI收錄) [39] 張科*, 葉錦明, 劉享華. 光固化3D打印在復雜裂隙巖體研究中的探索[J]. 材料導報, 2022, 36(17):122-127. (EI收錄) [40] 劉享華, 張科*, 李娜, 齊飛飛, 葉錦明. 含孔雙裂隙3D打印類巖石試件破裂行為定量識別[J]. 巖土力學, 2021, 42(11):3017-3028. (EI收錄) [41] 齊飛飛, 張科*, 謝建斌. 基于DIC技術的含不同節(jié)理密度類巖石試件破裂機制研究[J]. 巖土力學, 2021, 42(6):1669-1680. (EI收錄) [42] 張凱, 張科*, 保瑞, 劉享華, 齊飛飛. 基于優(yōu)化經(jīng)驗模態(tài)分解和聚類分析的滑坡位移智能預測研究[J]. 巖土力學, 2021, 42(1):211-223. (EI收錄) [43] 張科, 蔡晨曦, 張凱, 陳宇龍*. 飽水裂隙砂巖力學及前兆異常特征量化分析[J]. 煤炭學報, 2021, 46(S1):200-210. (EI收錄) [44] 張科*, 張凱. 裂隙砂巖變形破裂過程中應變場灰度及紋理特征分析[J]. 煤炭學報, 2021, 46(4):1253-1262. (EI收錄) [45] 張科*, 齊飛飛, 陳宇龍. 基于3D打印和DIC技術的裂隙網(wǎng)絡模型變形破裂特征及填充物影響效應[J]. 巖土力學, 2020, 41(8):2555-2563. (EI收錄) [46] 張科, 李娜, 陳宇龍*, 劉文連. 裂隙砂巖變形破裂過程中應變場及紅外輻射溫度場演化特征研究[J]. 巖土力學, 2020, 41(S1):95-105. (EI收錄) [47] 陳宇龍, 張科*, 孫歡. 凍融循環(huán)作用下巖石表面裂紋擴展過程細觀研究[J]. 土木工程學報, 2019, 52(S1):1-7. (EI收錄) [48] 張科*, 劉享華, 李昆, 吳文遠. 含孔多裂隙巖石力學特性與破裂分形維數(shù)相關性研究[J]. 巖石力學與工程學報, 2018, 37(12):2785-2794. (EI收錄) [49] 陳宇龍, 張科*. 積水情況下顆粒材料碰撞恢復系數(shù)[J]. 清華大學學報(自然科學版), 2018, 58(11):986-991. (EI收錄) [50] 張科, 陳宇龍*, 程赫明, 范文臣. 反傾角裂隙巖體壓剪斷裂及破碎特征研究[J]. 巖石力學與工程學報, 2018,37(S1):3291-3299. (EI收錄) [51] 陳宇龍, 張科*. 井點降水法處理可液化地基的振動臺試驗[J]. 清華大學學報(自然科學版), 2018, 58(2):192-197. (EI收錄) [52] 張科*, 曹平. 均質(zhì)邊坡穩(wěn)定狀況快速辨識及參數(shù)反演的一種實用方法[J]. 中南大學學報(自然科學版), 2013, 44(7):2855-2860. (EI收錄) [53] 張科*, 曹平. 基于變形分析的3維邊坡滑動面搜索新方法[J]. 四川大學學報(工程科學版), 2012, 44(6):55-60. (EI收錄) [54] 張科, 曹平*. 復雜邊坡非圓弧滑動面求解的類電磁機制算法[J]. 中南大學學報(自然科學版), 2011, 42(10):3125-3130. (EI收錄)
專利	[1] 張科, 關世豪, 保瑞, 羅國立, 狄巍, 劉享華, 張凱. 模擬水流對試件沖刷侵蝕作用的試驗系統(tǒng) ZL 202111438831.3, 2024-01-26. [2] 張科, 關世豪, 保瑞, 羅國立, 徐奕, 李娜. 一種模擬水流對巖石類試件沖刷作用的試驗方法 ZL202111427802.7, 2024-01-26. [3] 張科, 狄巍, 張凱, 保瑞, 周罕, 雍偉勛, 付俊, 李社, 劉長城, 劉享華, 李娜, 謝建斌. 一種模擬河流侵蝕下岸坡失穩(wěn)的試驗方法 ZL 202211278781.1, 2024-01-12. [4] 張科, 葉錦明, 保瑞, 劉享華, 張凱, 李娜. 一種巖石力學實驗試件制備方法 ZL 202210563824.4, 2023-12-15. [5] 張科, 張凱, 保瑞, 劉享華, 李娜. 一種邊坡穩(wěn)定性預測評估方法 ZL 202110376378.1, 2022-06-07. [6] 張科, 張凱, 保瑞, 齊飛飛, 蔡晨曦, 葉錦明. 一種基于AdaBoost算法的邊坡可靠度判斷方法 ZL 202110421163.7, 2022-05-27. [7] 張科, 李娜, 劉享華, 許萬忠. 一種應用于數(shù)字散斑的飽水巖石試件表面制斑方法 ZL 201911200875.5, 2021-09-10. [8] 張科, 曹平, 范文臣. 一種巖質(zhì)邊坡破壞的平面試驗裝置及其實驗方法 ZL 201210587985.3, 2016-06-01.

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