1. 基本信息
姓名:万昌兵
民族:汉族
职称:讲师
籍贯:河南信阳
邮箱:wan@cumtb.edu.cn
2. 教育背景与工作经历
2024.06-至今, 永利3044noc 讲师
2022.07-2024.06, 北京大学工学院 博士后(助理研究员)
2017.09-2022.06, 永利官网 工程力学 博士
2015.09-2017.06, 永利官网 采矿工程 提前攻博
2011.09-2015.06, 黑龙江科技大学 采矿工程 学士
3. 主要研究方向
(1) 岩石灾变力学:复杂结构岩体动态应力场透明解析、工程岩体灾变机理
(2) 矿井灾害智能预测:岩体应力场透明推演与灾害智能预测系统
4. 代表性论文
(1) Yang Ju*,Changbing Wan, et al. Quantification of continuous evolution of full-field stress associated with shear deformation of faults using three-dimensional printing and phase-shifting methods. International Journal of Rock Mechanics and Mining Sciences. 2020; 126: 104187. (SCI, 中科院1区TOP)
(2) Yang Ju*,Changbing Wan, et al. Optical method for identification and quantification of full-field stress distribution and evolution in assembled lining structures based on additively-printed models and phase-shifting methods. Tunnelling and Underground Space Technology. 2022; 119: 104228. (SCI, 中科院1区TOP)
(3) Yang Ju*,Changbing Wan, et al. Effects of near-fault stress evolution and surface asperities on rough fault slip: An evaluation based on photoelastic shear tests and additively printed models. Engineering Geology. 2022; 305: 106715. (SCI, 中科院1区TOP)
(4) Yang Ju*,Changbing Wan, et al. Method to quantify the dynamic near-fault full-field stress evolution associated with rough fault shear deformation based on 3D printed models and photoelastic measurements. Measurement. 2023; 207: 112395. (SCI, 中科院2区TOP)
(5) Changbing Wan, Jidong Jin, et al. Quantification of full-field stress in continuously loaded fractured rocks using 3D printing and digital photoelasticity. Optics and Lasers in Engineering. 2024; 175: 108018. (SCI, 中科院2区)
5. 授权发明专利及软件著作权
(1) 鞠杨,万昌兵等, 动态载荷作用下粗糙裂隙面剪切滑移动态应力场测试系统[P]. 北京: ZL201810876999.4.
(2) 鞠杨,万昌兵等, 一种隧道衬砌结构应力场透明显示及定量表征的系统[P]. 北京: ZL201810876996.0.
(3) 鞠杨, 万昌兵等, 一种低速轻气炮冲击试验装置[P]. 北京: ZL201710896598.0.
(4) 鞠杨,万昌兵等, 复杂非连续结构剪切过程全场应力量化软件[C]. 北京: 2023SR0156347.
6. 主持项目
(1) 开采扰动下岩体非连续结构内部应力场演化的透明解析,国家自然科学基金青年科学基金项目(52304076),2024.01-2026.12,主持。
(2) 动力扰动下复杂煤岩结构内部应力场演化的透明解析,74批中国博士后科学基金面上资助(2023M740086),2023.11-2024.06,主持。
