EN
师资队伍
所在位置: 首页 > 师资队伍 > 师资队伍 > 按姓氏 > M

专家详情页

苗胜军

土木工程系

职务:土木与资源工程学院院长

学位职称:博士/教授/博导

办公电话:010-62332465

Email:miaoshengjun@ustb.edu.cn


简介:

男,山东威海人,博士,教授,博士生导师,现任土木与资源工程学院院长,“Green and Smart Mining Engineering”中国科技期刊卓越行动计划高起点新刊执行主编,北京科技大学鼎新学者,中国矿业知识产权联盟理事,国家技术标准创新基地专家委员会委员,全国注册安全工程师、爆破工程师。2006年毕业于北京科技大学岩土工程专业,同年留校任教,曾担任土木工程系副书记、书记、系主任,科学技术研究院副院长,土木与资源工程学院党委书记,高等工程师学院院长;2013年入选北京市“青年英才计划”。美国University of Minnesota、澳大利亚The University of Melbourne和The University of New South Wales大学访问学者。“国家自然科学基金”等国家及省部级科研项目、《Int J Rock Mech Min》、《Rock Mech Rock Eng》、《岩石力学与工程学报》等著名期刊评审专家。主要从事岩土力学与工程灾害防治方向的基础理论与实验研究,在重大工程灾害孕育与动力学演化机理、动态监控与预测预报等方面取得了一系列研究成果。近五年来,主持国家自然科学基金重点项目1项、面上项目3项,JW科技委重点基础研究项目1项,“973”计划课题1项,重点研发计划课题2项,横向课题20项;参与国家自然科学基金重点项目及国务院其他部委纵向项目2项。荣获省部级科技奖特等奖1项、一等奖4项、二等奖5项;组织并成功申报国家级基地1个,省部级平台2个,创新人才推进计划重点领域创新团队1个。在《Int J Rock Mech Min》、《Rock Mech Rock Eng》、《岩石力学与工程学报》等行业认可的顶级期刊发表学术论文110余篇,其中被SCI、EI收录70余篇。

主要研究方向与招生方向

主要研究方向:

(1)岩土工程及地质灾害勘测与防治

(2)工程地质及采动灾害地球物理探测与识别

(3)深部岩体力学与地应力场分布规律研究

(4)采动岩体多场耦合力学特性与围岩控制理论

(5)城市地下空间施工交互影响与灾害监控

研究生招生方向:

土木(岩土)工程、采矿(矿业)工程、工程力学

教学工作

主讲本科生课程:《土木工程项目管理》、《土木工程发展前沿》。其中,《土木工程项目管理》获评北京市优质本科课程。个人荣获北京高等学校优秀专业课主讲教师。

主讲研究生课程:《地下工程灾害与控制技术》、《岩土工程研究专题》、《岩土工程勘测技术》、《岩石边坡与地下工程》。

创新创业大赛:近三年,指导学生完成国家级和市级SRTP科技创新项目9项,获创新创业国家级奖1项和省部级奖20项。

代表性论文(第一或通讯作者)、专利与著作

[1] Miao Shengjun*, Liu Zejing, Zhao Xingguang, et al. Plastic and damage energy dissipation characteristics and damage evolution of Beishan granite under triaxial cyclic loading[J]. International Journal of Rock Mechanics and Mining Sciences, 2024, 174: 105644. (SCI 收录 中科院一区 TOP)

[2] Miao Shengjun, Liu Zejing, Yang Pengjin, et al. Mechanical Properties, Instability Precursors, and Fatigue Life Prediction of Siltstone Under Bivariate Fatigue Damage-Controlled Tests. Rock Mechanics and Rock Engineering ,2024. (SCI 收录 中科院一区 TOP)

[3] Yang Pengjin, Miao Shengjun*, Wang Hui, et al. Comparison of deformation behavior between creep and fatigue on siltstone and its modified damage model[J]. Fatigue Fracture of Engineering Materials Structures, 2023, 46(10): 3815-3828. (SCI 收录)

[4] Miao Shengjun, Shang Xiangfan, Wang Hui, Liang Mingchun, Yang Ppengjin, Liu Chunkang. Deformation Characteristics and Energy Evolution Rules of Siltstone under Stepwise Cyclic Loading and Unloading. Buildings. 2024; 14(6): 1500. (SCI 收录)

[5] Miao Shengjun, Xia Daohong, Yang Pengjin, et al. Characteristics of Stress Memory and Acoustic Emission for Siltstone under Different Previous Stresses[J]. International Journal of Geomechanics, 2024, 24(3): 4024013. SCI 收录

[6] Yang Pengjin, Miao Shengjun*, Ma Yuting, et al. Multi-dimensional non-uniform deformation and failure of siltstone determined using acoustic, 3D-digital image correlation, and computed tomography[J]. Theoretical and Applied Fracture Mechanics, 2023, 125: 103800. SCI 收录

[7] Yang Pengjin, Miao Shengjun*, Wang Hui, et al. Comparison of deformation behavior between creep and fatigue on siltstone and its modified damage model[J]. Fatigue Fracture of Engineering Materials Structures, 2023, 46(10): 3815-3828. SCI 收录

[8] Xiao Bolin, Miao Shengjun*, Gao Qian, et al. Hydration Mechanism of Sustainable Clinker-Free Steel Slag Binder and Its Application in Mine Backfill. JOM: the journal of the Minerals, Metals & Materials Society, 2021,73(04),1053-1061.

[9] Xia Daohong, Miao Shengjun*, Li Fei, et al. Mechanical properties of porous weakly cemented rocks under alternating creep-fatigue action[J]. Bulletin of Engineering Geology and the Environment, 2024, 83: 117. SCI 收录

[10] Xiao Bolin, Miao Shengjun*, Gao Qian. Quantifying particle size and size distribution of mine tailings through deep learning approach of autoencoders[J]. Powder Technology, 2022, 397: 117088. SCI 收录

[11] Xiao Bolin, Miao Shengjun*, Xia Daohong, et al. Detecting the backfill pipeline blockage and leakage through an LSTM-based deep learning model[J]. International Journal of Minerals, Metallurgy and Materials, 2023, 30(8): 1573-1583. SCI 收录

[12] Bolin Xiao, Zhenjiang Wen, Shengjun Miao, Qian Gao. Utilization of steel slag for cemented tailings backfill: Hydration, strength, pore structure, and cost analysis[J]. Case Studies in Construction Materials, 2021, 15: e00621 SCI 收录

[13] Wang Hui, Fall Mamadou, Miao Shengjun. Characteristics of fracture changes and fatigue failure signals for siltstone under cyclic loading[J]. International Journal of Rock Mechanics and Mining Sciences, 2024, 174: 105645. SCI 收录

[14] Li Peng, Cai Meifeng, Miao Shengjun*, et al. New Insights Into The Current Stress Field Around the Yishu Fault Zone, Eastern China[J]. Rock Mechanics and Rock Engineering, 2019, 52(10): 4133-4145. (SCI 收录)

[15] 苗胜军, 刘泽京, 赵星光, 等. 循环荷载下北山花岗岩能量耗散与损伤特征[J]. 岩石力学与工程学报, 2021, 40(05): 928-938. (EI 卓越期刊)

[16] 苗胜军, 尚向凡, 王辉, . 近疲劳强度循环荷载下粉砂岩强度变化机制[J]. 工程科学学报, 2024, 46(06): 982-993. EI 卓越期刊)

[17] 苗胜军, 刘泽京, 梁明纯, 等. 基于循环荷载损伤定量控制的岩石CWFS改进模型研究[J]. 岩石力学与工程学报, 2024, 43(04): 781-796. (EI 卓越期刊)

[18] 苗胜军, 杨鹏锦, 黄正均, . 多孔弱胶结岩石破裂的围压影响机制及压密-损伤本构模型[J]. 中国矿业大学学报, 2023, 52(02): 229-240. EI 卓越期刊)

[19] 苗胜军, 王辉, 杨鹏锦, 等. 近疲劳强度循环荷载对泥质石英粉砂岩力学特性影响研究[J]. 岩土力学, 2021, 42(08): 2109-2119. (EI 卓越期刊)

[20] 梁明纯, 苗胜军*, 蔡美峰, . 多孔弱胶结粉砂岩疲劳强度确定方法及疲劳破坏先兆[J]. 煤炭学报, 2023, 48(04): 1476-1486. EI 卓越期刊)

[21] 苗胜军, 王辉, 黄正均, . 不同循环上限荷载下泥质石英粉砂岩力学特性试验研究[J]. 工程力学, 2021, 38(07): 75-85. EI 卓越期刊)

[22] 梁明纯, 苗胜军*, 蔡美峰, . 考虑剪胀特性和峰后形态的岩石损伤本构模型[J]. 岩石力学与工程学报, 2021, 40(12): 2392-2401. EI 卓越期刊)

[23] 肖柏林, 苗胜军, 吴凡, 等. 基于奇异值分解的复杂充填尾砂级配综合表征方法[J]. 中南大学学报(自然科学版), 2022, 53(11): 4425-4434. (EI 卓越期刊

[24] 苗胜军, 段懿轩, 刘春康, 等. 分级循环卸-加围压下粉砂岩的力学特征[J/OL]. 土木与环境工程学报(中英文), 1-9[2024-07-07]. (CSCD)

[25] 苗胜军, 杨鹏锦, 王辉, 等. 循环荷载作用下粉砂岩疲劳流变损伤模型研究[J]. 工程力学, 2022, 39(07): 70-80. (EI 卓越期刊)

[26] Shengjun Miao, Meifeng Cai, Qifeng Guo, Peitao Wang, Mingchun Liang. Damage effects and mechanisms in Granite treated with acidic chemical solutions. International Journal of Rock Mechanics and Mining Sciences, 2016, (88): 77-86. (SCI收录)

[27] Sheng-Jun Miao, Mei-Feng Cai, Qi-Feng Guo, Zheng-Jun Huang. Rock burst prediction based on in-situ stress and energy accumulation theoryInternational Journal of Rock Mechanics and Mining Sciences, 2016, (83): 86-94. (SCI收录)

[28] Miao, Shengjun; Wang, Hui; Cai, Meifeng; Song, Yuanfang; Ma, Jintao. Damage constitutive model and variables of cracked rock in a hydro-chemical environment. Arabian Journal of Geosciences. 2018, 11(2): 19-27. (SCI收录)

[29] Miao, Shengjun; Wang, Hui; Guo, Xuelian; Liang, Mingchun; Kong, Changqing. Microcrack Growth Behavior and CWFS Criterion Parameters Optimization of Granite with PFC. Journal of Testing and Evaluation; 2018, 46(6): 10. (SCI收录)

[30] Shengjun Miao; Xin Hao; Xuelian Guo; Zimu Wang; Mingchun Liang. Displacement and landslide forecast based on an improved version of Saito’s method together with the Verhulst-Grey model. Arabian Journal of Geosciences. 2017, 10(3): 1-10 (SCI收录)

[31] Shengjun Miao, Yuan Li, Wenhui Tan, Fenhua Ren. Relation between the in-situ stress field and geological tectonics of a gold mine area in Jiaodong Peninsula, China. International Journal of Rock Mechanics and Mining Sciences. 2012, (51): 76-80. (SCI收录)

[32] Sheng-jun Miao, Xing-ping Lai, Xing-guang Zhao, Fen-hua Ren. Simulation experiment of AE-based localization damage and deformation characteristic on covering rock in mined-out area. International journal of minerals, metallurgy and materials, 2009, 16(3): 255-260. (SCI收录)

[33] 苗胜军, 蔡美峰, 冀东, 郭奇峰, 白玉冰. 酸性化学溶液作用下花岗岩损伤时效特征与机理. 煤炭学报, 2016, 41(5): 1137-1144. (EI 收录)

[34] Shengjun Miao, Zimu Wang, Hao Wang, Deng Zhang. The Direction of Shear Fracture Trend Surface in Triaxial Unequal Stress Fields. Electronic Journal of Geotechnical Engineering 2016, 21(06): 2269-2286. (EI 收录)

[35] 苗胜军, 蔡美峰, 冀东, 郭奇峰. 酸性化学溶液作用下花岗岩力学特性与参数损伤效应. 煤炭学报, 2016, 41(4): 829-835. (EI 收录)

[36] Miao ShengJun, Huang GuanLin, Chen Fei, Shi LiChaoAnalysis of the construction of new metro impact on the existing subway station, Advanced Materials Research, 2014, 1030-1032: 1966-1969. (EI 收录)

[37] 苗胜军, 杨志军, 龙超, 谭文辉. 脆性硬岩CWFS强度准则模型等效塑性参数优化研究. 岩石力学与工程学报, 2013, 32(S1): 2600-2605. (EI 收录)

[38] Miao Shengjun, Long Chao, Huang Guanlin, Chen Han. The parameter identification of the steep seam goaf's structural characteristics of the coal and rock based on GPR, Applied Mechanics and Materials, 2013, 390: 403-407. (EI 收录)

[39] 苗胜军, 杨志军, 龙超, 任奋华. 混合花岗岩加载细观力学特性及破裂演化规律. 江苏大学学报, 2012, 33(4): 469-473. (EI 收录)

[40] Shengjun Miao, Mingchun Liang, Xuelian Guo, ZimuWang, and Xin Hao. Micro Mechanical Properties and CWFS Criterion Parameters Optimization of Brittle Hard Rock Under Compression. Journal of Computational and Theoretical Nanoscience, 2016, 13(9): 5899-5906. (EI 收录)

[41] 李鹏, 苗胜军*.中国大陆金属矿区实测应力场及断层稳定性研究. 工程科学学报. 20173. 2017, 39(3): 323-334. (EI 收录)

[42] 李鹏, 苗胜军*. 我国煤矿矿区地应力场特征与断层活动性分析. 煤炭学报. 2016, 41(S2): 319-329. (EI 收录)

[43] Miao Shengjun, Chen Fei, Cui Guangjian. Thermal conductivity of rocks and the analysis of its influence factors, Seventh International Conference on Measuring Technology and Mechatronics Automation (ICMTMA). 2015: 1337-1340. (EI 收录)

[44] Pei Dianfei, Miao Shengjun*, Huang Guanlin, Chen Han. Study on lognormal distribution characteristics of a hydrothermal gold deposit mineralization in Jiaodong Peninsula, China. 2nd International Conference on Chemical Engineering, Metallurgical Engineering and Metallic Materials, CMMM 2013, 289-294. (EI 收录)

[45] Shengjun Miao, Jianjun Shi, Yuan Li, Haibo Liu. In-situ stress measurement and result analysis in the 8th mine of Pingmei Group, China. Proceedings of 2011 International conference on remote sensing, environment and transportation engineering. 2011, 425-431. (EI收录)

[46] Shengjun Miao, Peiliang Li, Yuan Li, Xiaokang Liao. Experiments and study on proportioning design of SMA-13 warm mix asphalt. Advanced Materials Research (Switzerland), 2011, 198: 1032-1037. (EI收录)

[47] MIAO Sheng-jun, LI Zheng-sheng, JI Dong, LI Jiang-bo. Dynamic measurements and behave laws of tunnel pressure in Deep mining. Proceedings of International conference on electric technology and civil engineering, 2011, 250-253. (EI收录)

[48] Miao Shengjun, Lai Xingping, Cui Feng. Top coal flows in an excavation disturbed zone of high section top coal caving of an extremely steep and thick seam. Mining Science and Technology (China), 2011, 21(1): 99-105. (EI收录)

[49] S.J. Miao, X.P. Lai, F. Cui, J.T. Cao. Top coal deformation characteristics of high section fully-mechanized top-coal caving for extra-steep-thick seam. Proceedings of 44th US Rock Mechanics Symposium - 5th US / Canada Rock Mechanics Symposium, United States. 2010, 117-122. (EI收录)

[50] 苗胜军, 樊少武, 蔡美峰, 陈长臻. 基于加卸载响应比的载荷岩石动力学特征试验研究. 煤炭学报, 2009, 34(3): 267-271. (EI收录)

[51] S.J. Miao, W.H. Tan, Z.F. Hou & P.L. li. Deformation prediction research based on improved Satio’s method with Verhulst grey model. Proceedings of the international young scholars’ symposium on rock mechanics, 28 April-2 May, 2008, Beijing, China. Published by: Taylor & Francis/Balkema. 919-923. (EI, ISTP收录)

[52] 苗胜军, 蔡美峰, 任奋华, 欧阳振华. GPS变形监测平差计算及不确定度分析. 岩土力学, 2008, 29(2): 562-566. (EI 收录)

[53] 苗胜军, 蔡美峰, 夏训清, 刘华, 佟慧超. 深凹露天矿GPS边坡变形监测. 北京科技大学学报, 2006, 28(6): 515-518. (EI 收录)

[54] 苗胜军, 万林海, 来兴平, 王双红. 三山岛金矿地应力场与地质构造关系分析. 岩石力学与工程学报, 2004, 23(23): 3996-3999. (EI 收录)

[55] 第一发明人 Immediate rockburst tendency grade discrimination method 国际发明专利 CN 2024 0 0713

[56] 第三发明人 A test system and method for simulating freeze-thaw activation catastrophes on mining faults in cold regions 国际发明专利 CN 2022 1 1386566.3

[57] 第一发明人 利用岩石各向异性波速提高声发射定位精度的方法及装置 发明专利 ZL 2023 1 0884410.6

[58] 第一发明人. 一种岩石脆性评价方法及装置. 发明专利. ZL 2023 1 0024304.0

[59] 第一发明人. 一种应变型岩爆倾向性等级判别方法. 发明专利. ZL 2022 1 1583435.4

[60] 第一发明人. 一种适于深部开采巷道的吸能垫板. 发明专利. ZL 2018 1 0588371.4

[61] 第四发明人. 基于改进型模糊C均值聚类算法的岩体结构面识别方法. 国际发明专利. F/PT/C/2023/8345

[62] 第四发明人. 一种深孔低渗透岩层水压致裂法地应力解算方法. 国际发明专利. F/PT/C/2023/8302

[63] 第三发明人. 一种锚杆抗腐蚀性能试验装置. 发明专利. ZL 2023 1 01235342

[64] 第一发明人. 一种深埋隧洞即时型岩爆主动防控方法. 发明专利. ZL 2018 1 0031286.8

[65] 第一发明人. 一种适于深部开采巷道的吸能垫板. 发明专利. ZL 2018 2 0893421.5

[66] 苗胜军等. 循环荷载作用下岩石动态力学响应特征及损伤破裂机理. 中国建材工业出版社, 2024, 专著.

[67] 苗胜军等. 复杂地质条件下大断面隧道安全开挖与支护关键技术. 中国建材工业出版社, 2024, 专著.

[68] 苗胜军. 深部硬岩开采岩爆倾向性分析与防治技术. 冶金工业出版社, 2016, 专著.

[69] 苗胜军. 复杂岩体边坡变形与失稳预测研究. 冶金工业出版社, 2016, 专著.

[70] 苗胜军. 土木工程项目管理. 清华大学出版社, 2015, 主编,教材.