宫凤强 教授

• 学院： 地质工程与测绘学院
• 性别： 男
• 出生年月：
• 职称： 教授
• 学位： 博士
• 学历： 博士研究生
• 毕业院校： 中南大学
• 联系电话：
• 电子邮箱： fengqiangg@126.com
• 通讯地址： 西安市雁塔区育才路长安大学地测学院
• 邮编： 710054
• 传真：
• 办公地址： 地学科技大厦
• 教育经历：

  1999-2010，中南大学，资源与安全工程学院，本科/硕士/博士，导师：李夕兵院士

  2007-2009，瑞士洛桑理工大学（EPFL），首批CSC联培博士，导师：Jian Zhao教授

  
  

宫凤强，山东潍坊人，地质工程与测绘学院教授、博士生导师、长安学者A2岗特聘教授，彭建兵院士团队和全国重点实验室骨干成员。

       本/硕/博毕业于中南大学，硕/博研究生阶段师从李夕兵院士，曾留学于瑞士洛桑联邦理工大学（国家首批CSC联培博士）。长期从事深部岩石力学与工程地质灾害研究。主持科研项目20余项，以通讯作者发表SCI论文100余篇（ESI高被引论文15篇、热点论文8篇）、Scopus H指数56，授权发明专利24项。先后荣获国家自然科学二等奖（R4）、教育部科研优秀成果奖二等奖（R1、R2）和一等奖（R5）、绿色矿山科学技术一等奖（R1）、湖南省自然科学一等奖（R3）和湖南省技术发明一等奖（R3）等科研奖励，连续入选Scholar GPS全球前0.05%高排名学者榜单、美国斯坦福大学全球前2%顶尖科学家职业生涯榜单和爱思维尔中国高被引学者。参编《岩石力学》新形态教材荣获2025年矿业类优秀教育教学成果奖(优秀教材特等奖)和中国知网高被引图书TOP1%(2019-2023)。

       主持教育部供需对接就业育人项目，提出并践行“感知-认知-行知”一体化思政育人理念，先后入选湖南省普通高校青年骨干教师培养对象、湖南省优秀硕士学位论文指导教师、中南大学创新创业项目优秀指导教师、中南大学青年岗位能手、中南大学优秀班导师（连续3学年）和东南大学优秀班主任，荣获中国有色金属学会高等教育教学成果一等奖(R3)和绿色矿山教育教学成果一等奖(R5)。依托国家重大工程需求和国际前沿科学问题，指导大学生和研究生自主探索创新项目21项，鼓励并支持研究生参加国际国内学术会议近150人次，悉心培育博/硕研究生44人、其中毕业34人（11位毕业硕士攻读博士学位），5位研究生获得CSC联培博士资格。在校研究生多次获国家奖学金、宝钢教育奖优秀学生奖、研究生校长奖学金创新奖、陈国达教育基金优秀学生学金奖，被评为湖南省优秀毕业生、中南大学优秀共产党员和优秀团员、中南大学优秀学生标兵、中南大学优秀学生干部和优秀学生、中南大学优秀毕业生、东南大学三好研究生标兵、东南大学优秀毕业研究生。毕业研究生入职高校特聘教授、副教授，中国中车、中铁勘察、宁德新能源、路特斯机器人、青岛国信、中石油、中国铁设、中铁设计、比亚迪、中铁置业、郑州市发改委、中国电建、中国市政、国网杭州、中船华东、中国华能石岛湾核电、各省市选调生等单位。

       每年招收2名博士生、4名硕士生，专业方向包括：工程地质、采矿工程、岩土工程、计算机等相关学科，课题组氛围：严肃活泼、团结向上、积极进取，欢迎报考！

[1].中国有色金属学会深地矿建与资源开发专委会副主任委员

[2].中国岩石力学与工程学会岩石破碎工程专委会副主任委员

[3].绿色矿山产业联盟标准化工作委员会采矿与岩石力学专委会副主任

[4].国际岩石力学与工程学会岩爆专委会委员

[5].中国岩石力学与工程学会岩石动力学专委会副秘书长\常务理事

[6].中国岩石力学与工程学会工程地质力学分会\工程安全防护分会\地下工程分会常务理事

[8].湖南省岩石力学与工程学会第六届理事会秘书长

[9].中国矿山安全学会冲击地压和岩爆防治专委会委员

[10].中国土木工程学会工程风险与保险研究分会理事

研究领域：深部工程地质与动力灾变防控

研究思路：从地球科学系统理论出发，基于提出“岩-环-人”三要素工程地质致灾原理，系统研究重大深部工程动力灾害的多因素多动力耦合孕灾与致灾机制及防治措施.

《地下空间工程》。

主持国家及省级等各类科研项目20余项。

专著《深部岩石动力学行为与动态强度准则》获国家科学技术学术著作出版基金资助；在深部工程地质与岩石力学领域以第一/通讯作者发表SCI论文70余篇\EI论文40余篇，ESI热点论文8篇、高被引15篇，代表性SCI论文如下：

[1]. Gong Fengqiang*, Zhang Zhixuan, Wang Bo, Dai Jinhao，Ma Pengyu. A “Proactive-Prevention and Post-Resistant” support method for alleviating rockburst in deep-buried large-section tunnels[J]. Tunnelling and Underground Space Technology, 2026, 171: 107402.

[2]. He Zhichao, Gong Fengqiang*, Ren Li*, Yang Weimin, Wu Xuezhen. Energy relief effect of real-time drilling to prevent rockburst in high-stress rock[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2026, 18(2):1460-1475.

[3]. Gong Fengqiang*, Xu Lei, Gao Mingzhong*, Zhao Yingjie, Zhang Peilei. Compressive damage constitutive model for brittle coal based on the compaction effect and linear energy dissipation law[J]. International Journal of Coal Science & Technology, 2025, 12(1): 43.

[4]. Gong Fengqiang*, Xu Lei, Wang Shuren, Zhang Qinhe, Huang Yong. Rockburst proneness index of surrounding rock considering rock mass quality and excavation disturbance factor[J]. Underground Space, 2025, 24: 1-21.

[5]. He Zhichao, Gong Fengqiang*, Gao Mingzhong*. Experimental study on the mechanical behavior of high-stress rocks during real-time drilling[J]. International Journal of Coal Science & Technology, 2025, 12(1): 37.

[6]. Xu Lei, Gong Fengqiang*, Ren Li*. Microwave irradiation power-induced energy evolution and rockburst failure characteristics in red sandstone[J]. Engineering Failure Analysis, 2025: 109899.

[7]. Wu Wuxing, Gong Fengqiang*, Ren Li, Yu Weijian, Zhang Zongxian. Dynamic triggering mechanism of rockburst in highly stressed rectangular tunnel under impact load[J]. Tunnelling and Underground Space Technology, 2025, 165: 106908.

[8]. Xu Lei, Gong Fengqiang*, Dai Jinhao, He Zhichao. Effects of bedding angles on rockburst proneness of layered anisotropic phyllites[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2025, 17(7): 4288-4313.

[9]. Wu Wuxing, Gong Fengqiang*, Zhang Zongxian. Sidewall rockburst characteristics of highly stressed circular tunnel under impact load[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2024, 16(12): 4909-4924.

[10]. Wu Wuxing, Gong Fengqiang*, Zhang Zongxian. Experimental investigation on rockburst characteristics of highly stressed D-shape tunnel subjected to impact load[J]. Underground Space, 2024, 19: 153-168.

[11]. Dai Jinhao, Gong Fengqiang*, Huang Da, Zhang Qinghe. Quantitative evaluation method of rockburst prevention effect for anchoring rock masses around deep-buried tunnels[J]. Tunnelling and Underground Space Technology, 2025, 156: 106268.

[12]. Cai Chengshuo, Gong Fengqiang*, Ren Li*, Xu Lei, He Zhichao. Prediction of residual elastic energy index for rockburst proneness evaluation based on cluster forest model[J]. Journal of Central South University, 2024, 31(11): 4218-4231.

[13]. Luo Song, Gong Fengqiang*, Peng Kang, Liu Zhixiang. Rockburst proneness considering energy characteristics and sample shape effects[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2024, 16(7): 2441-2465.

[14]. Dai Jinhao, Gong Fengqiang*, He Zhichao, Xu Lei. Quantitative estimation of potential rockburst pit depths during blasting excavation in deep tunnels[J]. International Journal of Rock Mechanics and Mining Sciences, 2024, 178: 105748.

[15]. Dai Jinhao, Gong Fengqiang*, Xu Lei. Rockburst criterion and evaluation method for potential rockburst pit depth considering excavation damage effect[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2024: 16:1649-1666.

[16]. Dai Jinhao, Gong Fengqiang*, He Zhichao, Xu Lei. Quantitative estimation method for the excavation-induced weakening effect of rock mass parameters in deep tunnels[J]. Engineering Geology, 2024, 330: 107416.

[17]. Gong Fengqiang*, Dai Jinhao, Xu Lei. A strength-stress coupling criterion for rockburst: Inspirations from 1114 rockburst cases in 197 underground rock projects[J]. Tunnelling and Underground Space Technology, 2023, 142: 105396.

[18]. Gong Fengqiang*, Wu Wuxing, Ren Li*. Rockburst process and strength-weakening effect of the high-stress circular tunnel under internal unloading[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2023, 15(4): 864-885.

[19]. Dai Jinhao, Gong Fengqiang*, Qi Shengwen, Xu Lei. Quantitative evaluation of rockburst proneness for surrounding rocks considering combined effects of the structural plane and excavation disturbance[J]. Tunnelling and Underground Space Technology, 2023, 140: 105335.

[20]. Luo Song, Gong Fengqiang*, Peng Kang, Liu Zhixiang. Influence of water on rockburst proneness of sandstone: Insights from relative and absolute energy storage[J]. Engineering Geology, 2023, 323: 107172.

[21]. Wu Wuxing, Gong Fengqiang*, Ren Li*, He Lei. Strain rockburst failure characteristics and mechanism of high stress circular hard rock tunnel triggered by dynamic impact load[J]. International Journal of Rock Mechanics and Mining Sciences, 2023, 171: 105575. 

[22]. Wu Wuxing, Gong Fengqiang*, Jiang Quan. Influence of water on rockburst of surrounding rock in deep circular tunnels under triaxial internal unloading conditions[J]. Tunnelling and Underground Space Technology, 2023, 138: 105165.

[23]. Luo Song, Gong Fengqiang*. Evaluation of energy storage and release potentials of highly stressed rock pillar from rockburst control perspectives[J]. International Journal of Rock Mechanics and Mining Sciences, 2023, 163:105324.

[24]. Luo Song, Gong Fengqiang*, Peng Kang. Theoretical shear damage characterization of intact rock under compressive-shear stress considering energy dissipation[J]. International Journal of Damage Mechanics, 2023, 32(7): 962-983.

[25]. Wu Wuxing, Gong Fengqiang*, Jiang Quan, He Lei. Strength reduction of initial high-stress rock pillars under different unloading paths[J]. Rock Mechanics and Rock Engineering, 2023, 56(5):3519-3537.

[26]. Luo Song, Gong Fengqiang*, Li Liuliu, Peng Kang*. Linear energy storage and dissipation laws and damage evolution characteristics of rock under triaxial cyclic compression with different confining pressures[J]. Transactions of Nonferrous Metals Society of China, 2023, 33(7):2168-2182.

[27]. Gong Fengqiang*, Zhang Peilei, Xu Lei. Damage constitutive model of brittle rock under uniaxial compression based on linear energy dissipation law[J]. International Journal of Rock Mechanics and Mining Sciences, 2022,160: 105273.

[28]. Gong Fengqiang*, Wang Yunliang. A new rock brittleness index based on the peak elastic strain energy consumption ratio[J]. Rock Mechanics and Rock Engineering, 2022, 55:1571-1582.

[29]. Gong Fengqiang*, Ni Yuxin,  Ren Li. Effects of loading rate on rockburst proneness of granite from energy storage and surplus perspectives[J]. Rock Mechanics and Rock Engineering, 2022, 55:6495-6516.

[30]. Gong Fengqiang*, Zhang Peilei, Du Kun. A novel staged cyclic damage constitutive model for brittle rock based on linear energy dissipation law: modelling and validation[J]. Rock Mechanics and Rock Engineering, 2022, 55:6249-6262.

[31]. Gong Fengqiang*, He Zhichao, Jiang Quan. Internal mechanism of reducing rockburst proneness of rock under high stress by real-time drilling pressure relief[J]. Rock Mechanics and Rock Engineering, 2022, 55:5063-5081.

[32]. Yan Jingyi, Gong Fengqiang*, Luo Song. Effects of length-to-diameter ratio on energy storage characteristics of rock materials under uniaxial compression[J]. Bulletin of Engineering Geology and the Environment, 2022, 81(12):508.

[33]. Gong Fengqiang*, Ni Yuxin, Jia Hangyu. Effects of specimen size on linear energy storage and dissipation laws of red sandstone under uniaxial compression[J]. Bulletin of Engineering Geology and the Environment, 2022, 81(9):386.

[34]. Luo Yong, Gong Fengqiang*, Zhu Chuanqi. Experimental investigation on stress-induced failure in D-shaped hard rock tunnel under water-bearing and true triaxial compression conditions[J]. Bulletin of Engineering Geology and the Environment, 2022, 81(2): 76.

[35]. Gong Fengqiang*, Luo Song, Jiang Quan, Xu Lei. Theoretical verification of the rationality of strain energy storage index as rockburst criterion based on linear energy storage law[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2022, 14 (6):1737-1746.

[36]. Gong Fengqiang*, He Zhichao, Si Xuefeng. Experimental study on revealing the mechanism of rockburst prevention by drilling pressure relief: status-of-the-art and prospects[J]. Geomatics, Natural Hazards and Risk, 2022, 13(1): 2442-2470.

[37]. Xu Lei, Gong Fengqiang*, Liu Zhixiang. Experiments on rockburst proneness of pre-heated granite at different temperatures: Insights from energy storage, dissipation and surplus[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2022, 14(5):1343-1355.

[38]. Wu Wuxing, Gong Fengqiang*, Jiang Quan, He Lei. Fracture toughness weakening effect of high static pre-loaded CSTBD granite subjected to low frequency dynamic disturbance during the rock fracture[J]. Engineering Fracture Mechanics, 2022, 269:108566.

[39]. Wu Wuxing, Gong Fengqiang*, iang Quan. Strength weakening effect of high static pre-stressed granite subjected to low-frequency dynamic disturbance under uniaxial compression[J]. Transactions of Nonferrous Metals Society of China, 2022, 32(7):2353-2369.

[40]. Gong Fengqiang*, Zhong Wenhui, Gao, Mingzhong*, Si Xuefeng, Wu Wuxing. Dynamic characteristics of high stressed red sandstone subjected to unloading and impact loads[J]. Journal of Central South University, 2022, 29(2):596–610.

[41]. Gong Fengqiang*, Shi RuiHe, Xu Lei. Linear energy storage and dissipation laws of concrete under uniaxial compression at different ages[J]. Construction and Building Materials, 2022, 318: 125963.

[42]. Gong Fengqiang*, Zhang Peilei, Luo Song, Li Jianchun, Huang Da. Theoretical damage characterisation and damage evolution process of intact rocks based on linear energy dissipation law under uniaxial compression[J]. International Journal of Rock Mechanics and Mining Sciences, 2021, 146: 104858.

[43]. Gong Fengqiang*, Wang Yunliang, Wang ZG, Pan Junfeng, Luo Song. A new criterion of coal burst proneness based on the residual elastic energy index[J]. International Journal of Mining Science and Technology, 2021, 31(4): 553-563.

[44]. Xu Lei, Gong Fengqiang*, Luo Song. Effects of pre-existing single crack angle on mechanical behaviors and energy storage characteristics of red sandstone under uniaxial compression[J]. Theoretical and Applied Fracture Mechanics, 2021, 113: 102933.

[45]. He Zhichao, Gong Fengqiang*, Wu Wuxing, Wang Weihua. Experimental investigation of the mechanical behaviors and energy evolution characteristics of red sandstone specimens with holes under uniaxial compression[J]. Bulletin of Engineering Geology and the Environment, 2021, 80(7): 5845-5865.

[46]. Wu Chen, Gong Fengqiang*, Luo Yong. A new quantitative method to identify the crack damage stress of rock using AE detection parameters[J]. Bulletin of Engineering Geology and the Environment, 2021, 80(1): 519-531.

[47]. Su Youqiang, Gong Fengqiang*, Luo Song, Liu Zhixiang. Experimental study on energy storage and dissipation characteristics of granite under two-dimensional compression with constant confining pressure[J]. Journal of Central South University, 2021, 28(3): 848-865.

[48]. He Zhichao, Gong Fengqiang*, Luo Song. Evaluation of the rockburst proneness of red sandstone with prefabricated boreholes: an experimental study from the energy storage perspective[J]. Geomatics, Natural Hazards and Risk, 2021, 12(1): 2117-2154.

[49]. Wu Wuxing, Gong Fengqiang*, Yang Weimin. Experimental simulation study of spalling in deep rectangular tunnel with plastic fine grain marble[J]. Tunnelling and Underground Space Technology, 2020, 98: 103319.

[50]. Gong Fengqiang*, Wu Wuxing, Li Tianbin. Simulation test of spalling failure of surrounding rock in rectangular tunnels with different height-to-width ratios[J]. Bulletin of Engineering Geology and the Environment, 2020, 79: 3207-3219.

[51]. Luo Song, Gong Fengqiang*. Linear energy storage and dissipation laws of rocks under preset angle shear conditions[J]. Rock Mechanics and Rock Engineering, 2020, 53: 3303-3323.

[52]. Gong Fengqiang*, Luo Song, Lin Ge, Li Xibing. Evaluation of shear strength parameters of rocks by preset angle shear, direct shear and triaxial compression tests[J]. Rock Mechanics and Rock Engineering, 2020, 53: 2505-2519.

[53]. Si Xuefeng, Gong Fengqiang*. Strength-weakening effect and shear-tension failure mode transformation mechanism of rockburst for fine-grained granite under triaxial unloading compression[J]. International Journal of Rock Mechanics and Mining Sciences, 2020, 131: 104347.

[54]. Luo Song, Gong Fengqiang*. Linear energy storage and dissipation laws during rock fracture under three-point flexural loading[J]. Engineering Fracture Mechanics, 2020, 234: 107102.

[55]. Gong Fengqiang*, Wang Yunliang, Luo Song. Rockburst proneness criteria for rock materials: Review and new insights[J]. Journal of Central South University, 2020, 27(10): 2793-2821.

[56]. Gong Fengqiang*, Wu Wuxing, Zhang Le. Brazilian disc test study on tensile strength-weakening effect of high pre-loaded red sandstone under dynamic disturbance[J]. Journal of Central South University, 2020, 27(10): 2899-2913.

[57]. Luo Yong, Gong Fengqiang*, Li Xibing, Wang Shanyong. Experimental simulation investigation of influence of depth on spalling characteristics in circular hard rock tunnel[J]. Journal of Central South University, 2020, 27(3): 891-910.

[58]. Gong Fengqiang*, Wu Chen. Identifying crack compaction and crack damage stress thresholds of rock using load-unload response ratio (LURR)theory[J]. Rock Mechanics and Rock Engineering, 2020, 53: 943-954.

[59]. Gong Fengqiang*, Si Xuefeng, Li Xibing, Wang Shanyong. Experimental investigation of strain rockburst in circular caverns under deep three-dimensional high-stress conditions[J]. Rock Mechanics and Rock Engineering, 2019, 52: 1459-1474.

[60]. Luo Yong, Gong Fengqiang*, Liu Dongqiao, Wang Shanyong, Si Xuefeng. Experimental simulation analysis of the process and failure characteristics of spalling in D-shaped tunnels under true-triaxial loading conditions[J]. Tunnelling and Underground Space Technology, 2019, 90: 42-61.

[61]. Gong Fengqiang*, Yan Jingyi, Luo Song, Li Xibing. Investigation on the linear energy storage and dissipation laws of rock materials under uniaxial compression[J]. Rock Mechanics and Rock Engineering, 2019, 52: 4237-4255.

[62]. Gong Fengqiang*, Wu Wuxing, Li Tianbin, Si Xuefeng. Experimental simulation and investigation of spalling failure of rectangular tunnel under different three-dimensional stress states[J]. International Journal of Rock Mechanics and Mining Sciences, 2019, 122: 104081.

[63]. Gong Fengqiang*, Si Xuefeng, Li Xibing, Wang Shanyong. Dynamic triaxial compression tests on sandstone at high strain rates and low confining pressures with split Hopkinson pressure bar[J]. International Journal of Rock Mechanics and Mining Sciences, 2019, 113: 211-219.

[64]. Gong Fengqiang*, Wu Chen, Luo Song, Yan Jingyi. Load-unload response ratio characteristics of rock materials and their application in prediction of rockburst proneness[J]. Bulletin of Engineering Geology and the Environment, 2019, 78: 5445-5466.

[65]. Gong Fengqiang*, Yan Jingyi, Li Xibing, Luo Song. A peak-strength strain energy storage index for rock burst proneness of rock materials[J]. International Journal of Rock Mechanics and Mining Sciences, 2019, 117: 76-89.

[66]. Si Xuefeng, Gong Fengqiang*, Li Xibing, Wang Shanyong, Luo Song. Dynamic Mohr-Coulomb and Hoek-Brown strength criteria of sandstone at high strain rates[J]. International Journal of Rock Mechanics and Mining Sciences, 2019, 115: 48-59.

[67]. Gong Fengqiang*, Luo Yong, Li Xibing, Si Xuefeng, Tao Ming. Experimental simulation investigation on rockburst induced by spalling failure in deep circular tunnels[J]. Tunnelling and Underground Space Technology, 2018,81: 413-427.

[68]. Gong Fengqiang*, Luo Song, Yan Jingyi. Energy storage and dissipation evolution process and characteristics of marble in three tension-type failure tests[J]. Rock Mechanics and Rock Engineering, 2018, 51: 3613-3624.

[14].湖南省科学技术创新团队奖（排名第9），2021年度

2011-2019，中南大学，资源与安全工程学院

2019-2025，东南大学，土木工程学院

2025-至今，长安大学，地质工程与测绘学院