Dr. Bingwen WANG is currently a professor, doctoral supervisor and party branch secretary of Department of Resource Science and Engineering in the school of Energy and Mining Engineering at theChina University of Mining & Technology, Beijing. He was born in 1972, Haiyang City, Shandong Province, P. R. China. He graduated with a bachelor degree in mining engineering from the University of Science and Technology Beijing in 1994 and a PhD degree in mining engineering from the China University of Mining & Technology, Beijing in 2005. He was rewarded the Beijing famous teacher in 2021, Beijing university excellent moral education worker in 2022, and Beijing university excellent professional course lecturer in 2023. He is also a member of safety production expert in non-coal mines of China (2022~), a appointed expert of Beijing emergency management bureau (2019~2025), an emergency management consulting expert in Shandong Province, an editorial member of China Safety Science Journal, and a former member of the academic committee of the safety production key laboratory of the Ministry of Emergency Management of "Disaster Prevention and Control of Goaf" (2019~2024), a member of the expert committee of the university resources and environment poverty alleviation alliance, as well as a senior security audit expert specially hired by the China occupational safety and health association. He has won 4 provincial and ministerial first prizes, 7 second prizes, and 1 Beijing excellent textbook. He has published 3 books, participated in the compilation of 1 textbook, and authorized 3 national invention patents. He has presided over more than 20 research projects and published more than 60 academic papers. His research interests mainly include the method and technology of resource exploitation, theory and technology of mine filling, safe disposal of mine solid wastes, and disaster prevention and control of mine rock mass. Some representative publications are shown below.

[1]Wang Bingwen, Yang Lei, Li Qianlong, Shu Xueyao, Kang Mingchao, Mechanical behavior, acoustic emission and principal strain field evolution properties of layered cemented paste backfill under unconfined compression[J].Construction and Building Materials. 2024, 415:135111.

[2]Wang Bingwen, Gan Su, Yang Lei, Zhao Zhongqi, Wei Zhao, Wang Jiachen, Additivity effect on properties of cemented ultra-fine tailings backfill containing sodium silicate and calcium chloride[J].Minerals. 2024, 14: 154.

[3]Wang Bingwen, Li Qianlong*, Dong Pingbo, Gan Su, Yang Lei, Wang Ruizhong, Performance investigation of blast furnace slag based cemented paste backfill under low temperature and low atmospheric pressure[J].Construction and Building Materials. 2023, 363:129744.

[4]Wang Bingwen, Li Qianlong*, Wang Ruizhong, Wang Dongze, Dong Pingbo, Mechanical strength and hydration exothermic behavior of cemented paste backfill with early-strength agent under low temperature[J].International Journal of Mining, Reclamation and Environment. 2022, 36(10):710-723.

[5]Wang Bingwen, Wei Zhao*, Li Qianlong, Gan Su, Kang Mingchao, Yang Lei, Experimental study on the mechanical properties and cementation mechanism of microbial cemented fine tailings backfill[J].Construction and Building Materials. 2023, 409:134040.

[6]Li Qianlong,Wang Bingwen*, Wei Zhao, Zhong Yi, Experiment and numerical simulation study of polycarboxylate superplasticizer modified cemented ultrafine tailings filling slurry: Rheology, fluidity, and flow properties in pipeline[J].Construction and Building Materials. 2024, 438: 137041.

[7]Li Qianlong,Wang Bingwen*, Yang Lei, Kang Mingchao, Recycling multisource industrial waste residues as green binder for cemented ultrafine tailings backfill: Hydration kinetics, mechanical properties, and solidification mechanism[J].Powder Technology, 2024, 441: 119799.

[8]Li Qianlong,Wang Bingwen*, Yang Lei, Zhou Hanyu, Kang Mingchao, Li Ruihong, Shu Xueyao, Synthesis of cemented paste backfill by reutilizing multiple industrial waste residues and ultrafine tailings: Strength, microstructure, and GA-GPR prediction modeling[J].Powder Technology, 2024, 434:119337.

[9]Wang Bingwen, Gao Lijing, Xiong Tingyong, Cui Xiangyu, Li Yanan, Lei Kai, Study on relationship between ucs of cemented tailings backfill and weight losses of hydration products[J].Advances in Civil Engineering.2019, 9457309.

[10]Wang Bingwen, Xiong Tingyong, Gao Lijing, Chai Yuepeng, Cui, Xiangyu Ding Wei, Effects of tailings gradation on rheological properties of filling slurry[J].Advances in civil engineering. 2019, 6873840.

[11]王家臣,王炳文*,徐文彬,李乾龍.高海拔高寒地區金屬礦山采選固廢安全處置現狀及研究進展[J].中國安全生産科學技術, 2022, 18(07):54-60.

[12]王炳文,廖國禮*,羅宇靜,等.城市軌道交通建設生産安全事故統計分析[J/OL].工業安全與環保: 1-6. [2024-06-21].http://kns.cnki.net/kcms/detail/42.1640.X.20240425.0924.002.html

[13]王炳文*,甘肅,董平波,等.高寒地區尾砂膠結充填體固結特性試驗研究[J].中國有色金屬學報, 2022, 32(08):2446-2457.

[14]王炳文,黎林,張書金,等.基于FLAC3D模型的上向進路采場結構參數優化[J].中國礦業, 2020, 29(09): 93-96.

[15]王炳文,趙文華,熊庭永,等.尾砂充填料漿電滲脫水固結實驗[J].中國礦業, 2020, 29(04): 84-88.

[16]王炳文,熊庭永,雷強,等.玲珑礦區多階段遺留采空區群穩定性分析及治理[J].礦業科學學報, 2019, 4(05): 425-433.

[17]王炳文,熊庭永,崔向宇,等.九仗溝金礦上向進路采場結構參數優化[J].中國礦業, 2019, 28(07): 110-113.

[18]王炳文,高利晶,趙文華,等.玲珑金礦膠結劑固結尾砂的微觀實驗[J].礦業科學學報, 2019, 4(06): 524-530.

[19]王炳文,李全明,高利晶,等.全尾砂充填料漿電滲脫水固結試驗研究[J].岩石力學與工程學報, 2019, 38(S1): 3163-3170.

[20]王炳文,徐鵬,張浩,等.九仗溝金礦采場岩體穩定性分析及參數優化[J].礦業科學學報, 2018, 3(06): 561-567.

[21]王炳文,侯亞星,王華群,等.九龍礦野青灰岩堅硬頂闆爆破弱化效果分析與應用[J].中國煤炭, 2016, 42(02): 55-58+69.

[22]王炳文,張磊,趙軍,等.大摻量粉煤灰充填料的激活試驗研究[J].煤炭工程, 2014, 46(10): 192-195.

[23]王炳文,王成龍.遺留空區（群）治理與殘餘資源安全複采[M].北京:冶金工業出版社, 2019.

[24]王家臣,王炳文.金屬礦床露天與地下開采[M].徐州:中國礦業大學出版社, 2008.

[25]侯運炳,魏書祥,王炳文.尾砂固結排放技術[M].北京:冶金工業出版社. 2016.

Contact:Dr. Bingwen WANG, Professor

School of Energy and Mining Engineering

China University of Mining and Technology, Beijing

Ding No. 11 Xueyuan Road, Haidian District, Beijing 100083, P.R. China

Tel:+86 13693006633

Email:wbw@cumtb.edu.cn