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Learning and Work Experience：  

1. 2006-At present: Working for the School of Civil and Resource Engineering, University of Science and Technology Beijing, selected into The New Century Excellent Talent Support Program in 2007, promoted to professor in 2012.

2. Sept, 2011–Apr, 2012: Visited in the University of Adalaide, Australia.

3. Sept, 2002-May, 2006: Studied in Central South University, Safety Technology and Engineering, Ph.D.

4. July, 1989-August, 2002, Worked for the Northwest Research Institute of Mining and Metallurgy, trainee (1989), assistant engineer (1990), engineer (1994), senior engineer (2001).

5. Sept, 1985-Jun, 1989: Studied in Zhongnan University of Technology, Resource Engineering, Bachelor.

Research Fields：

1. Safe and efficient mining method for metal mine.

2. Green disposal and comprehensive utilization of tailings.

3. Special mining method for metal mine.

A course for Undergraduate:

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A Course for Postgraduate:

<< Disposal and Utilization of Tailings>>

Social Work：

1. Member of the 5th National Safety Production Expert Group.

2. Evaluation Expert of The National Natural Science Foundation of China.

Representatives in the Past Five Years:

1. Sun Wei, Wang Hongjiang, Hou Kepeng. Control of waste rock-tailings paste backfill for active mining subsidence areas[J]. Journal of Cleaner Production, 2018, 171:567-579.（SCI,WOS: 000418978100051）

2. YANG Liuhua, WANG Hongjiang, WU Aixiang, et al. Effect of flocculation settling on rheological characteristics of full tailing slurry[J]. Journal of Central South University (Science and Technology), 2016, 47(10):3523-3529.(Corresponding Author, SCI, INSPEC: 17001335)

3. LI Gongcheng, WANG Hongjiang, WU Aixiang, et al. Key parameters determination of deep cone thickener based on  dynamical settling and compaction experiments[J]. The Chinese Journal of Nonferrous Metals, 2017, 27(8): 1693-1700(Corresponding Author, SCI, INSPEC:17941333).

4. WANG Hongjiang, LI Hui, WU Aixiang, et al. New paste definition based on grading of full taillings[J].Journal of Central South University(Science and Technology),2014,45(2):557-562.(Corresponding Author, SCI, Accession number: 20142117744784).

5. HU Kaijian，WANG Hongjiang，LI Guangze, et al. Improvement experiment study of alkaline copper leaching bacteria[J]. Chinese Journal of Engineering, 2015, 37(11):1410-1414. (Corresponding Author, EI, Accession number:20155101700442).

 6. LI Gongcheng, WANG Hongjiang, WU Aixiang, et al. Experimental study and mechanism analysis on the effect of pumping agents on the compressive strength of paste slurries[J].Chinese Journal of Engineering, 2016, 38(5):595-601. (Corresponding Author, EI, Accession number: 20162402493452)

7. YANG Liuhua, WANG Hongjiang, WU Aixiang, et al. Regulation and a mathematical model of underflow in paste thickeners based on a circular system design[J]. Chinese Journal of Engineering, 2017,39(5) 1507-1511. (Corresponding Author, EI, Accession number: 20175204570857)

8. Wu Aixiang, Wang Hongjiang. Theory and Technology of Metal Mine Paste Filling[M]. Beijing: Science Press, 2015.

Issued Patents(China) in the Past Five Years：

1. Grading zonal paste backfilling system and method for total tailings of metal minerals, Authorization announcement on Jan 19th, 2018. Patent certificate number: ZL201510724845.X

2. Method for preparing whole tailings paste, Authorization announcement on Sept 26th, 2017. Patent certificate number: ZL201510580695.X

3. Test device for testing tailings paste fillings to be eroded by rain water, Authorization announcement on June 8th, 2016. Patent certificate number: ZL 201210447299.6

4. Whole tailings paste filling and stocking combined disposal method based on deep cone thickener, Authorization announcement on Feb 1, 2017. Patent certificate number: ZL201510334903.8

Technology Rewards in the Past Five Years：

1. Key technology of level open stoping with subsequent paste filling in rich water and soft ore body, Special Prize in Science and Technology of China Gold Association. (Award certificate number: 2016HJ003-R07)

2. Research and application on key technologies of paste filling for safe and efficient mining of soft and difficult mining deposit, First Prize for Scientific and Technological Progress of Xinjiang Autonomous Region. (Award certificate number: G20160181)

3. Research and application on matching and system adaptability of Huize paste filling material, Second Prize in Science and Technology Progress of Yunnan Province. (Award certificate number:2016EC118R-003)

4. Research on key technology of broken and inclined ore body mining and paste filling in Chambishi Copper Mine, First Prize for Scientific and Technological Progress of China Non-Ferrous Metals Industry Association. (Award certificate number: [2016]5-2015007-R12)

5. Research on mining technology of complex and difficult mining deposit of Barumba Copper Mine, First Prize for Scientific and Technological Progress of China Non-Ferrous Metals Industry Association. (Award certificate number: [2014]215 -2014006-R10)

National Research Projects Participated in the Past Five Years：

1. National Science and Technology Support Program in “12th Five-Year Plan”, High-efficiency mining technology for complex and broken gold mine (Project No.: 2012BAB08B02); 2012/1/-2015/12, 2 million yuan, Completed, Participated).

2. National Key R&D Program of China in “13th Five-Year Plan”, High-efficiency synergistic paste filling technology for deep metal mines (Project No.: 2017YFC0602903); 2017/01-2022/12, 4.21 million, Under Research, Host).

3. The National Natural Science Foundation of China, “Rheological properties and consolidation behavior of metal mine tailings paste for green disposal” (Project No.: 51834001); 2019/01-2021/12, 1.2 million, Under Research, Participation).

4. The National Natural Science Foundation of China, Underflow thickening mechanism and its control method in deep cone thickening process (Project No.: 51374034; 2014/01-2017/12, 800,000 yuan, Completed, Host).

5. Key Project of Beijing Science and Technology Plan, Research and development of key technologies and equipment for goaf backfilling using solid wastes and tailings (Project No.: Z161100001216002); 2016/1-2017.12, 756,700 yuan, Completed, Participation).