学位职称:博士/教授
办公地点:土木楼912
Email:sandy_cao@ustb.edu.cn
学习工作简历:
2023.07-至今:北京科技大学土木与资源工程学院,教授
2020.07-2023.07:北京科技大学土木与资源工程学院,副教授,硕士生导师
2019.09-2020.04:香港理工大学土木与环境工程学系,访问学者
2017.06-2019.12:北京科技大学土木与资源工程学院,教师博士后
2012.09-2017.06:北京科技大学 采矿工程专业,博士
2008.09-2012.07:北京科技大学 采矿工程专业,学士
研究领域:
金属矿床开采理论与工艺
尾砂胶结充填工艺及充填体力学
学术兼职:
2021.07-至今:担任捷克Czech Science Foundation国际基金函评人
2019.05-至今:担任哈萨克斯坦国家科学技术评估中心(NCSTE)国际基金函评人
2021.11-至今:担任《International Journal of Minerals, Metallurgy and Materials》编委
2021.01-至今:担任《Mining》编委
2020.12-至今:担任《International Journal of Mining Science and Technology》青年编委
2022.01-至今:担任《工程科学学报》青年编委
2020.08-至今:担任《化工矿物与加工》第一届青年专家会委员
2021.11-至今:担任《采矿技术》首届青年编委
2021.10-至今:担任中国硅酸盐学会固废与生态材料分会第二届理事会青年委员
2021.11-至今:教育部学位与研究生教育发展中心学位论文评阅人
2021.01-至今,担任《Journal of Hazardous Materials》、《Rock Mechanics and Rock Engineering》、《Journal of Cleaner Production》、《Construction and Building Materials》、《中国有色金属学报》、《中南大学学报(自然科学版)》和《Journal of Central South University》等30余个中英文期刊通讯审稿人。
本科生课程:
《矿业软件建模与应用》
授权发明专利:
[1]ZL202110051708.X:一种矿体与围岩均破碎的急倾斜薄矿体的地下采矿方法,排名第1;
[2]ZL202110363031.3:一种利用可收缩的网状材料充填假顶构筑方法,排名第1;
[3]ZL202110754742.3:一种折叠式加固装置与分层回采方法,排名第1;
[4]ZL202011535732.2:一种海底下的上下盘破碎围岩矿体安全采矿方法,排名第1;
[5]ZL202111545942.4:一种利用网-面组合结构加固充填胶结面的方法,排名第1;
[6]ZL202111447255.9:一种可收缩网状的护孔件、护孔件的安装方法与护孔方法,排名第1;
[7]ZL202110970976.1:一种采矿运输巷道施工方法,排名第1;
[8]ZL202210546706.2:一种阻断水体下构造发育型破碎矿体向上抽冒的方法,排名第1;
[9]ZL202111447255.9:一种基于一体化柔性框架的充填挡墙及施工方法,排名第1;
[10]ZL202210546706.1:多断层错段近水平极薄矿体的采矿方法,排名第1;
[11]2023SR0282344:尾砂胶结充填介质宏观强度智能预测系统,排名第1;
[12]2023SR0479627:地下矿巷(隧)道及采场顶板支护类别选型及参数优化智能综合系统,排名第1。
教学与科研获奖:
[1]北京科技大学第十八届“十佳学术之星”优秀指导教师,2023;
[2]北京科技大学优秀硕士学位论文指导教师,2022;
[3]中关村绿色矿山产业联盟:绿色矿山青年科学技术奖,2023;
[4]山东省科技进步二等奖:深部缓倾斜厚大金矿床安全绿色智能开采关键技术研究与应用,2022,排名第8;
[5]中国黄金协会科技进步一等奖:小东沟金矿复杂矿体高强度低贫损充填采矿方法研究与应用,2023,排名第2;
[6]中国黄金协会科技进步一等奖:高海拔大型露天矿长距离大断面复杂地层巷道支护关键技术研究与应用,2022,排名第2;
[7]中国黄金协会科技进步一等奖:极不稳固顶板难采金矿体安全高效采矿方法研究及应用,2017,排名第2;
[8]中国黄金协会科技进步二等奖:深部缓倾斜破碎薄矿体的安全高效采矿方法研究及应用,2019,排名第2;
[9]中国黄金协会科技进步三等奖:全面法超高点柱的精细化开采关键技术研究及应用,2019,排名第2;
[10]中国黄金协会科技进步二等奖:崩落法与充填法垂直隔离矿柱的安全回采关键技术研究及应用,2019,排名第7;
[11]中国黄金协会科技进步二等奖:大型深部复杂金矿床安全高效采矿方法研究及应用,2015,排名第5;
[12]Minerals-Best Paper Award(最佳论文奖),2019;
[13]《International Journal of Minerals, Metallurgy and Materials》优秀青年编委,2021.
科研项目:
[1]国家重点研发计划子课题(2022YFC2905004-02):甲玛铜多金属资源基地绿色勘查与开发示范,2022.10-2026.03,主 持;
[2]国家自然科学基金青年基金项目(51804017):冲击载荷下掺纤维尾砂充填体宏细观力学行为与损破机理实验研究,2019.01-2021.12,主 持;
[3]中国博士后科学基金面上项目(2018M631341):深井动载作用下结构型充填体损破动态演化机理研究,2018.06-2020.05,主 持;
[4]金属矿山安全开采与安全教育部重点实验室(ustbmslab201804):单轴压缩条件下掺纤维充填体力学特性及损破机理研究,2018.07-2019.06,主 持;
[5]横向项目:急倾斜薄矿脉浅孔留矿法开采气囊式降贫工艺研究与应用,2023.05-2023.12,主持;
[6]横向项目:急倾斜薄矿脉低贫损机械截割非爆开采关键技术研究与应用,2023.03-2023.12,主持;
[7]横向项目:岩体质量分级及支护系统优化,2023.01-2023.12,主 持;
[8]横向项目:高海拔寒区富水隧洞突水突泥机理与综合防治关键技术研究,2022.03-2022.12,主持;
[9]横向项目:南温河钨矿采空区封闭治理监测工程项目,2022.03-2023.12,主 持;
[10]横向项目:高海波冻土复杂地质大跨度巷道施工技术,2021.10-2021.12,主持;
[11]横向项目:小东沟金矿复杂矿体安全高效采矿方法与采场结构参数优化研究,2021.07-2022.06,主 持;
[12]横向项目:缓倾斜破碎厚大矿体大断面上向水平分层充填法机械化连续开采关键技术研究与应用,2020.10-2021.12,主 持;
[13]横向项目:极不稳固顶板缓倾斜极薄矿体安全高效采矿方法研究及应用;2019.03-2020.08,主 持;
[14]横向项目:深部缓倾斜破碎薄矿体的安全高效采矿方法研究及应用;2018.11-2019.01,主 持;
[15]横向项目:南温河钨矿矿柱回收与采空区治理关键技术研究;2018.06-2020.05,负责人;
[16]横向项目:极不稳固顶板难采金矿体安全高效采矿方法研究及应用;2014.07-2017.12,负责人。
代表性论文:
[1]Shuai Cao, Gaili Xue, Erol Yilmaz, et al. Utilizing concrete pillars as an environmental mining practice in underground mines. Journal of Cleaner Production, 2021, 278: 123433. (TOP-1区, IF: 7.246, WOS:000592392300018) 高被引论文
[2]Shuai Cao, Erol Yilmaz, Zhenyu Yin, et al. CT scanning of internal crack mechanism and strength behavior of cement-fiber-tailings matrix composites. Cement and Concrete Composites, 2021, 116: 103865. (TOP-1区, IF: 6.257, WOS: 000608491400003) 高被引论文
[3]Shuai Cao, Di Zheng, Erol Yilmaz, et al. Strength development and microstructure characteristics of artificial concrete pillar considering fiber type and content effects. Construction and Building Materials, 2020, 256:119408. (TOP-1区, IF: 4.419, online)
[4]Shuai Cao, Gaili Xue, Weidong Song, et al. Strain rate effect on dynamic mechanical properties and microstructure of cemented tailings composites. Construction and Building Materials, 2020, 247: 118537. (SCI-JCR Q1, IF: 4.046, online)
[5]Shuai Cao, Erol Yilmaz, Weidong Song. Fiber type effect on strength, toughness and microstructure of early age cemented tailings backfill. Construction and Building Materials, 2019, 223: 44-54. (TOP-SCI-JCR Q1, IF:4.046, WOS: 000487569100005)
[6]Shuai Cao, Erol Yilmaz, Gaili Xue, et al. Loading rate effect on uniaxial compressive strength behavior and acoustic emission properties of cemented tailings backfill. Construction and Building Materials, 2019, 213: 313-324. (TOP-SCI-JCR Q1, IF: 4.046, WOS: 000471084500029)
[7]Shuai Cao, Weidong Song, Erol Yilmaz. Influence of structural factors on uniaxial compressive strength of cemented tailings backfill[J]. Construction and Building Materials, 2018, 174: 190-201. (TOP-SCI-JCR Q1, IF: 4.046, WOS: 000433656300018)
[8]Shuai Cao, Erol Yilmaz, Weidong Song. Dynamic response of cement-tailings matrix composites under SHPB compression load. Construction and Building Materials, 2018, 186:892-903. (TOP-SCI-JCR Q1, IF: 4.046, WOS:000445983300077)
[9]Zhiqiang Huang, Shuai Cao, Erol Yilmaz. Investigation on the flexural strength, failure pattern, and microstructural characteristics of combined fibers reinforced cemented tailings backfill. Construction and Building Materials. 2021, 298: 124005. (TOP-1区, IF: 6.141, WOS: 000687477100004)
[10]Jiajian Li, Erol Yilmaz, Shuai Cao. Influence of industrial solid waste as filling materials on mechanical and microstructural characteristics of cementitious backfills. Construction and Building Materials. 2021, 299: 124288. (TOP-1区, IF: 6.141, WOS: 000686045900002)
[11]Shiwen Qin, Shuai Cao, Erol Yilmaz, Jiajian Li. Influence of types and shapes of 3D printed polymeric lattice on ductility performance of cementitious backfill composites. Construction and Building Materials. 2021, 307: 124973. (TOP-1区, IF: 6.141, WOS: 000703618900003)
[12]Shiwen Qin, Shuai Cao, Erol Yilmaz. Employing U-shaped 3D printed polymer to improve flexural properties of cementitious tailings backfills. Construction and Building Materials. 2022, 320: 126296. (TOP-1区, IF: 6.141, WOS: )
[13]Aiai Wang, Shuai Cao, Erol Yilmaz. Effect of height to diameter ratio on dynamic characteristics of cemented tailings backfills with fiber reinforcement through impact loading. Construction and Building Materials. 2022, 322: 126448. (TOP-1区, IF: 6.141, WOS:000750982900002)
[14]Shuai Cao, Erol Yilmaz, Zhenyu Yin, Gaili Xue. Assessment of rheological and sedimentation characteristics of fresh cemented tailings backfill slurry. International Journal of Mining, Reclamation, and Environment. 2020, 1-17. (SCI-Q2, IF: 2.956, WOS: 000582435500001)
[15]Shuai Cao, Erol Yilmaz, Weidong Song. Evaluation of viscosity, strength and microstructural properties of cemented tailings backfill. Minerals, 2018, 8, 352. (SCI-JCR Q2,IF: 2.25,WOS: 000443257900042)
[16]Shuai Cao, Weidong Song. Effect of filling interval time on the mechanical strength and ultrasonic properties of cemented coarse tailing backfill[J]. International Journal of Mineral Processing, 2017, 166: 62-68. (SCI-JCR Q1,IF: 2.688, WOS: 000410871200009)
[17]Shuai Cao, Weidong Song. Medium-term strength and electromagnetic radiation characteristics of cemented tailings backfill under uniaxial compression[J]. Geotechnical and Geological Engineering, 2018, 4: 1-8. (EI期刊,检索号:20181504997744)
[18]Cao Shuai,Song Weidong,Deng Dan,et al. Numerical simulation of land subsidence and verification of its character for an iron mine using sublevel caving. International Journal of Mining Science and Technology, 2016, 26(2): 327-332.
[19]Jiajian Li, Shuai Cao, Erol Yilmaz. Compressive fatigue behavior and failure evolution of additive fiber-reinforced cemented tailings composites. International Journal of Minerals, Metallurgy, and Materials. 2022, 29(2): 345-355. (中科院2区, IF: 2.232, WOS:000742929300018)
[20]Zhiqiang Huang, Erol Yilmaz, Shuai Cao. Analysis of strength and microstructural characteristics of mine backfills containing fly ash and desulfurized gypsum. Minerals. 2021; 10: 922. (SCI-Q2, IF: 2.644, WOS: 000643333100001)
[21]Jiajian Li, Erol Yilmaz, Shuai Cao. Influence of solid content, cement/tailings ratio, and curing time on rheology and strength of cemented tailings backfill. Minerals. 2020; 10(10): 922. (SCI-Q2, IF: 2.644, WOS: 000586978700001)
[22]Jiajian Li, Shuai Cao, Erol Yilmaz. Characterization of macro mechanical properties and microstructures of cement-based composites prepared from fly ash, desulfurized gypsum, and steel slag. Minerals. 2021, 12, 6: 1-12. (SCI-Q2, IF: 2.644, Online)
[23]Zhiqiang Huang, Shuai Cao, Shiwen Qin. Research on the mechanical properties of 3D printing polymer reinforced cemented tailings backfill under uniaxial compression. Geotechnical and Geological Engineering. 2022. (WOS:000764905700001)
[24]曹 帅,宋卫东,薛改利. 组合胶结充填体力学特性试验与应用研究[J]. 采矿与安全工程学报,2019,36(3):599-606.
[25]曹 帅,宋卫东,薛改利. 考虑间歇充填和浓度效应的充填体长期强度试验研究[J]. 岩土力学,2018,39(1): 341-347.
[26]曹 帅,宋卫东,薛改利,等. 考虑分层特性的尾砂胶结充填体强度折减试验研究. 岩土力学,2015,36(10):2869-2876.
[27]曹 帅,宋卫东,薛改利,等. 分层胶结充填体力学特性变化规律及破坏模式. 中国矿业大学学报,2016,45(4):717-722+728.
[28]曹 帅,杜翠凤,谭玉叶,等. 金属矿山阶段嗣后充填胶结充填体矿柱力学模型分析. 岩土力学,2015,36(8):2370-2376.
[29]曹 帅,杜翠凤,母昌平,等. 崩落法转充填法采矿地表移动二维离散元程序数值模拟及其规律验证. 岩土力学,2015,36(6):1737-1743.
[30]曹 帅,杜翠凤,唐占信,等. 准深部缓倾厚大矿体采场稳定性分析及现场应用. 东北大学学报(自然科学版),2015,36(S1):27-32.