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Learning and Working Experience：  

09/2004-07/2008   University of Science and Technology Beijing    Mining Engineering         Bachelor

08/2008-08/2010   University of Science and Technology Beijing  Office of Planning and Discipline Staff Member

09/2010-01/2017   University of Science and Technology Beijing    Mining Engineering        PhD

08/2013-03/2014   University of Ottawa          Department of Civil Engineering             Visiting Scholar

01/2017-01/2019 University of Science and Technology Beijing Department of Resources Engineering Lecturer/Postdoctor

02/2019-Now  University of Science and Technology Beijing Department of Resources Engineering  Distinguished Associate Professor

Research Interest：

1. Green Mining with Paste Backfill in Metal Mines

2. Rheological Theory and Application of Total Tailings Paste

3. Multi-field performance monitoring, characterization and warning of solidification process for backfilled paste 

Social Appointments：

1. Member of China Nonferrous Metals Society

2. Reviewer of International Journal of Mineral Processing, Construction & Building Materials, Materials and Design, Environmental Geotechnics and other international journals 

Authorized Patent：

1. Aixiang Wu, Yong Wang, Hongjiang Wang, Jiandong Wang. A method of paste backfilling and tailing discharge co-disposal on the basis of deep cone thickener. Chinese Patent, Patent number: ZL 2015 1 0334903.8.

2. Aixiang Wu, Yong Wang, Hongjiang Wang. A multi-field coupling experimental apparatus for cemented paste backfill and its using method. Chinese Patent, Patent number: ZL 2014 1 0210347.9. 

3. Aixiang Wu, Yong Wang, Hongjiang Wang, Shenghua Yin, Yiming Wang, Bin han. A paste saturation concentration measurement device and its using method. Chinese Patent, Patent number: ZL 2013 1 0399790.0. 

4. Aixiang Wu, Yong Wang, Hongjiang Wang, Bo Zhou. Thermo-hydro-mechanical–chemical properties monitoring device for cemented paste backfill in mining stope. Chinese Patent, Patent number: ZL 2015 2 0365972.0. 

5. Hongjiang Wang, Aixiang Wu, Yong Wang, Yiming Wang, Shenghua Yin, Bin han. A new dynamic tailings thickening device. Chinese Patent, Patent number: ZL 2012 2 0069203.2.

Honors and Awards：

1. 2017   The 11th President Prize of USTB, University of Science and Technology Beijing.

2. 2016   Top Ten Academic Star, University of Science and Technology Beijing. 

3. 2019   China Gold Association Prize for Scientific and Technological Progress, Research and Application of Key Technology of Four-Dimensional Support for Complex Fractured Soft Rock Roadway under Mining Stress.

4. 2017   China Gold Association Prize for Scientific and Technological Progress, Key Technologies of Paste Filling Mining after Open Stope in Water-Rich Extremely Soft Ore Body Stage.

5. 2017   First Prize for Scientific and Technological Progress in Xinjiang Uygur Autonomous Region, Research and Application of Key Technologies for Safe and Efficient Mining of Paste Filling in Soft and Difficult Mining Body.

6. 2016   First Prize for Scientific and Technological Progress of China Nonferrous Metals Industry Association, Study on Key Technologies of Mining Fractured Slowly Inclined Orebody and Paste Filling in Qianbixi Copper Mine.

7. 2018   Prize of the Third Golden Excellent Scientific and Technological Thesis Award. 

Research Project：

1. National Key R&D Program of China, Integration of theory and technology of deep mineral resources exploitation,                                     

principle investigator,                   07/2018-06/2021

2. The National Natural Science Foundation of China, Thermo-hydro-mechanical-chemistry property response mechanism and collaborative characterization of unclassified tailings cemented paste in solidification process, 

principle investigator,                   01/2019-12/2021

3. The China Postdoctoral Science Foundation, Evolution mechanism and collaborative representation of multi-field property during the solidification process of cemented paste backfill under the temperature effect, 

principle investigator,                   07/2017-06/2019

4. State Key Laboratory Open Fund, Evaluation and Optimal Allocation of Water Resources Carrying Capacity in Western Mining Areas,                      principle investigator,                   01/2018-12/2020

5. State Key Laboratory Open Fund, Multi-field Performance Response and Characterization of Paste Curing Process under the Effect of Initial Temperature,         principle investigator,                   01/2018-12/2019

6. Fundamental Research Funds for the Central Universities, Study on Evolution Law of Multi-field Properties of Cemented Paste under Temperature Effect,      principle investigator,                   01/2018-12/2019

7. National Key R&D Program of China, High Efficiency Collaborative Paste Filling Technology in Deep Metal Mines,

                                         participant,                           01/2014-12/2017

8. Key projects of the National Natural Science Foundation of China, Rheological Characteristics and Consolidation Behavior of Green Disposal of Metal Mine Whole Tailings Paste,

participant,                           01/2019-12/2023

9. The National Natural Science Foundation of China, Spatio-temporal Modeling and Visual Simulation of Transport Behavior of Whole Tail Particles in Paste Density,

participant,                           01/2019-12/2023

10. The National Natural Science Foundation of China, Underflow densification mechanism and control method for deep cone thickener during its thickening process,      participant,                           01/2014-12/2017

Selected peer reviewed journal papers：

（1）Yong Wang, Mamadou Fall, Aixiang Wu. Initial temperature-dependence of strength development and self-desiccation in cemented paste backfill that contains sodium silicate [J]. Cement and Concrete Composites. 2016, 67: 101-110.（SCI）

（2）Yong Wang, Aixiang Wu, Lianfu Zhang, et al. Investigation of the sedimentation property of backfill material on the basis of rheological test: a case study of iron tailings [J]. Journal of Chemistry. 2018: 1-9.（SCI）

（3）Yong Wang, Aixiang Wu, Zhuen Ruan, et al. Temperature effects on rheological properties of fresh thickened copper tailings that contains cement [J]. Journal of Chemistry. 2018: 1-8.（SCI）

（4）Yong Wang, Aixiang Wu, Lianfu Zhang, et al. Investigating the Effect of Solid Components on Yield Stress for Cemented Paste Backfill via Uniform Design [J]. Advances in Materials Science and Engineering. 2018: 1-7.（SCI）

（5）Yong Wang, Aixiang Wu, Shaoyong Wang, et al. Correlative Mechanism of Hydraulic-mechanical Property in Cemented Paste Backfill [J]. Journal of Wuhan University of Technology-Mater. Sci. Ed. 2017, 32: 579-585.（SCI）

（6）Aixiang Wu, Yong Wang, Hongjiang Wang. Estimation model for yield stress of fresh uncemented thickened tailings: Coupled effects of true solid density, bulk density, and solid concentration [J]. International Journal of Mineral Processing. 2015, 143: 117-124.（SCI）

（7）Aixiang Wu, Yong Wang, Hongjiang Wang, et al. Coupled effects of cement type and water quality on the properties of cemented paste backfill [J]. International Journal of Mineral Processing. 2015, 143: 65-71.（SCI）

（8）Aixiang Wu, Yong Wang, Bo Zhou, et al. Effect of initial backfill temperature on the deformation behaviour of early age cemented paste backfill that contains sodium silicate [J]. Advances in Materials Science and Engineering, 2016: 1-10.（SCI）

（9）Zhuen Ruan, Yong Wang, Aixiang Wu, et al. A Theoretical Model for the Rake Blockage Mitigation in Deep Cone Thickener: A Case Study of Lead-Zinc Mine in China [J]. Mathematical Problems in Engineering, 2019: 1-7.（SCI）

（10）Yong Wang, WU Ai-xiang, WANG Hong-jiang, YANG Liu-hua, WANG Yi-ming, JIN Fei, YANG Xi-xiang, ZHOU Fa-lu, Effect of low temperature on early strength of cemented paste backfill from a copper mine and engineering recommendations, Chinese Journal of Engineering, 2018, 40(8): 925-930. (EI, in Chinese)

（11）Yong Wang, Aixiang Wu, Hongjiang Wang, Yiming Wang, Liang Cui, Fei Jin, Bo Zhou, Jiahua Shen. Damage constitutive model of cemented tailing paste under initial temperature effect. Chinese Journal of Engineering, 2017, 39(1): 31-38. (EI, in Chinese)

（12）Yong Wang, Aixiang Wu, Hongjiang Wang, Xixiang Yang, Falu Zhou, Bo Zhou. Further development of paste definition from the viewpoint of yield stress. Journal of University of Science & Technology Beijing, 2014, 36(7):855-860. (EI, in Chinese)

（13）Yong Wang, Aixiang Wu, Hongjiang Wang, Bo Zhou. Dynamic thickening characteristics and mathematical model of total tailings. Rock & Soil Mechanics, 2014, 35:168-172 and 179. (EI, in Chinese)

（14）Yong Wang, Aixiang Wu, Hongjiang Wang, Shenghua Yin, Hongjun Liu, Chunde Kang. A method to determine deep cone thickener volume and its application. Journal of China University of Mining & Technology, 2013, 42(1): 45-49. (EI, in Chinese)

（15）Yong Wang, Aixiang Wu, Hongjiang Wang, Sizhong Liu, Bo Zhou. Influence mechanism of flocculant dosage on tailings thickening. Journal of University of Science & Technology Beijing, 2013, 35(11):1419-1423. (EI, in Chinese)

（16）Aixiang Wu, Yong Wang, Hongjiang Wang. Effect of rake rod number and arrangement on tailings thickening performance. Journal of Central South University (Science and Technology). 2014, 45 (1): 244-248. (EI, Corresponding author, in Chinese)

（17）Hongjiang Wang, Yong Wang, Aixiang Wu, Bo Zhou, Peng Yang, Shaofeng Yu, Naibing Peng, Dynamic compaction and static compaction mechanism of fine unclassified tailings. Journal of University of Science and Technology Beijing. 2013, 35(5):566-571. (EI, in Chinese)