基本信息:
尹海清,北京科技大学材料物理与化学系教授。工学博士、教授、博士生导师。2006 年入选“北京市科技新星计划”。长期从事粉末冶金领域、材料数据和材料设计的研究工作,近年来利用粉末高速压制、微注射成形等新技术、第一性原理计算方法及材料数据分析方法,在无钨硬质合金、生物医用材料、氧化物陶瓷、铁基粉末冶金材料等研究方向上取得了一定的成绩和较好的研究成果,主持和参与承担完成了国家重点研发计划项目、国家973 计划、国家科技基础条件平台建设项目、863 计划、国家自然科学基金项目、北京市科技计划项目、军品配套项目和Kennametal-USTB国际合作科研课题近20 项。
获省部级科技成果奖一等奖1项,二等奖2项。发表论文40余篇,SCI收录20余篇,EI收录30余篇。
担任的社会兼职:亚洲材料数据委员会(AMDC)委员及中方联络人,《粉末冶金工业》、《中国科学数据》和《科研信息化技术与应用》编委,北京市女教授联谊会成员。
研究方向与特色:
以材料的实验、计算模拟和数据技术相结合,开展材料成分设计、工艺优化及性能提升的创新研究。
主要研究方向:
1. 无钨硬质合金的材料设计及其制备研究
2. 牙科修复用生物医用材料的制备研究
3. 基于材料基因工程(MGI)的先进材料设计
4. 材料大数据的分析与挖掘及应用
科研成果:
在国内外期刊上发表学术论文40余篇,其中SCI收录20余篇,申请发明专利10余项,授权7项。
发表的论文:
1. 尹海清,姜雪,张瑞杰,刘国权,曲选辉. 材料科学数据共享网及其在材料行业创新发展中的应用. 中国科技资源导刊,2016,48(3): 58-65.
2. 尹海清,刘国权,姜雪,张瑞杰,曲选辉,谢建新. 国家材料数据研发与服务公共平台的建设, 科技导报,2015,33(10): 50-59.
3. 尹海清. 大数据与“互联网+中国材料”助力中国制造的创新发展, 北京新材料产业,2015,9:8-11
4. 易善杰,尹海清,殷小龙,曲选辉,ZHENG Qingjun. Mo2NiB2基金属陶瓷的制备与性能, 工程科学学报,2015,37(4): 488--493l
5. 殷小龙,尹海清,DilFaraz Khan,曲选辉. 反应硼化烧结WCoB基金属陶瓷的组织与性能, 材料导报B:研究篇,2015,29(1): 57-59,86.
6. 李贺,尹海清,易善杰,DilFaraz Khan,曹慧钦,张桐,曲选辉. 烧结温度对高速压制制备弥散强化铜材料导电率的影响, 工程科学学报,2015,37(5): 621--625
7. Yin Haiqing, ZhangRuijie, Liu Guoquan, Qu Xuanhui, XieJianxin. Development of the Materials Databases. Journal of Chinese Ceramic Society, 2014,1(1):48-52
8. Yi S J, Yin H Q, Zheng J, Khan D F, Qu X H. The first-principles study on the mechanical and electronic properties about rim phase and hard phase of Ti(C,N) based cermets. Computational Material Science, 2013, 79: 417-423.
9. Yi S J, Yin H Q, Chen K, Khan D F, Zheng Q J, Qu X H. Microstructure and properties of the nano-TiN modified Ti(C,N)-based cermets fabricated by powder injection molding and die pressing. International Journal of Minerals, Metallurgy and Materials, 2013, 20(11): 1115-1121.
10. Khan DF, Yin HQ, Li H, Qu XH, Khan M, Ali S, Iqbal MZ. Compaction of Ti-6Al-4V powder using high velocity compaction technique, MATERIALS & DESIGN, 2013, 50: 479-483.
11. Li, He,Yin, Haiqing(*),Khan, DilFaraz,Cao, Huiqin,Abideen, Zainul,Qu, Xuanhui,High velocity compaction of 0.9Al2O3/Cu composite powder,Materials & Design,2014,57:546-550。
12. Khan DF, Yin HQ, Usman Z, Khav M, Yuan XJ, Wang WH, Qu XH. Improvement of a High Velocity Compaction Technique for Iron Powder, ACTA METALLURGICA SINICA-ENGLISH LETTERS, 2013,26(4): 399-403.
13. Khan DF, Yin HQ, Khan M, Asadullah, Qu XH. Analysis of Density and Mechanical Properties of Iron Powder with Upper Relaxation Assist through High Velocity Compaction, MATERIALS PERFORMANCE, MODELING AND SIMULATION, 2013, 749: 41-46.
14. Xin-lei Ni, Hai-qing Yin, Lin Liu, Shan-jie Yi, and Xuan-hui Qu. Injection molding and debinding of micro gears fabricated by micro powder injection molding, International Journal of Minerals, Metallurgy and Materials, 2013,20(1): 1-6.
15. Haiqing Yin, Guoquan Liu, Ruijie Zhang, Xuanhui Qu. Construction of Material Database Infrastructure for Materials Genome Initiative, 国际材联2013国际先进材料大会(IUMRS-ICAM2013),2013-09青岛
16. Haiqing Yin, Jia Guan, Xianjie Yuan, DilFaraz Khan, Xuanhui Qu. Study on High-strength Aluminum Alloy 7050 Powder formed by High Velocity Compaction, The 2nd International Conference on Powder Metallurgy in Asia, 2013-11厦门
17. 王文浩, 尹海清, 曲选辉, DilFaraz Khan. 纳米铜粉对高速压制铁基粉末冶金零件性能的影响, 北京科技大学学报, 2013,35(10): 1340-1345.
18. 易善杰, 尹海清, 范慧洋, 殷小龙, Zheng Qingjun, 曲选辉. 铬含量对M3B2(M=Mo,Ni,Cr)基金属陶瓷性能的影响. 2013全国粉末冶金学术会议及海峡两岸粉末冶金技术研讨会.
19. Haiqing Yin, Guoquan Liu, Xuanhui Qu. From the Powder Metallurgy Data To the Sustainable Development of Materials Database, The 3rd Asian Materials Data Symposium, 2012.04.13-16, Noha, Japan.
20. Xian-jie Yuan, Hai-qing Yin, Rafi-ud Din, Khan D.-F, Xuan-hui Qu. Study on the impact force and green properties of high-velocity compacted aluminum alloy powder, International Journal of Minerals, Metallurgy and Materials, 2012,19(12): 1107-1113.
21. Yin Haiqing, Qing Wang, Qu Xuanhui, Johnson JL. Computational Simulation and Experimental Analysis of the Mold-filling Process in μPIM. Journal of Micromechanics and Microengineering, 2011,21 (4):045023-045032
22. Xianjie Yuan, YuxuanZhuo, HaiqingYin, JiaGuan, DilFarazKhan, XuanhuiQu. High Velocity Compaction of Aluminum Powders. Rare Metal Materials and Engineering, 2011, 40(S3): 086-089.
23. L Liu, XL Ni, HQ Yin, XH Qu. Study on Binder System for Micro Powder Injection Molding of ZrO2 Ceramic. Materials Science Forum, 2012, 706-709: 1948-1954
24. Haiqing Yin. Design and Development of Materials Database for Powder Metallurgy, The 2nd Asian Materials Database Symposium, 2010.03.10-14, Sanya, China
25. Tong JY, Yin HQ, Qu XH, Wang Q. Factors affecting the replication quality of micro metal gears produced by -PIM. Microsystem Technology. 2010,16(3):391-397
26. Yin Haiqing, Qu Xuanhui, Jia Chengchang, Zhou Shengyu, Wang Jianzhong, Liu Yixiong. The shock wave in high velocity compaction of iron powders, TMS Annual Meeting, 2009,3:677-683
27. Wang JZ, Yin HQ, Qu XH, Johnson JL. Effect of multiple impacts on high velocity pressed iron powder. Powder Technology, 2009,195 (3): 184-189
28. Wang Q, Yin HQ, Qu XH, Johnson JL. Effects of mold dimensions on rheological of feedstock in micro powder injection molding. Powder Technology, 2009,193 (1): 15-19
29. Yi Mingjun, Yin Haiqing, Qu Xuanhui. Comparative research on high-velocity compaction and conventional rigid die compaction, Frontiers of Materials Science in China, 2009, 3(4): 392-396
30. Wang JZ, Yin HQ, Qu XH . Analysis of density and mechanical properties of high velocity compacted iron powder. ActaMetallurgicaSinica (English Letters), 2009,22 (6):447-453
31. Wang JZ, Yin HQ, Qu XH. Effect of powder particle size on green properties and stress wave, Frontiers of Materials Science in China, 2009, 3(3): 319-324
32. Yin HQ, Qu XH, Jia CC. Fabrication of micro gear wheels by micro powder injection molding. Journal of University of Science and Technology Beijing, 2008,15 (4): 480-483
33. YIN Haiqing, JIA Chengchang, Qu Xuanhui. Micro powder injection molding-large scale production technology for micro-sized components, Science in China Series E: Technology Sciences, 2008, 51(2): 121-126.
34. 尹海清,刘艳平,曲选辉. 金属微型元器件的制备新技术与性能检测. 北京科技大学学报, 2008, 30(12): 1428 -1431
35. 周晟宇,尹海清,曲选辉. 力与应力波对高速压制压坯质量的影响, 粉末冶金技术,2008,27(3):207-211
36. Cheng Chen,Haiqing Yin,Islam S. Humail,Yuhui Wang,Xuanhui Qu. A comparative study of a back propagation artificial neural network and a Zerrilli-Armstrong model for pure molybdenum during hot deformation. International journal of refractory metals and hard materials,2007,25:411-416.
37. Chen C, Yin HQ, Qu XH, Zhu L. Research on deformation resistance of molybdenum. Rare Metal Materials and Engineering, 2007,36 (7): 1237-1240
38. 尹海清,贾成厂,曲选辉. 粉末微注射成形技术现状,粉末冶金技术,2007, 25(5): 382-386.
39. 杜美娜,尹海清,曲选辉.微粉末注射成形,粉末冶金工业,2007,17(4):1-4
40. 陈程,尹海清,曲选辉,朱琳. 钼变形抗力的研究. 稀有金属材料与工程.2007,36(7):1237-1240
41. 陈程,尹海清,曲选辉,朱琳. 钼塑性变形抗力数学模型的研究. 塑性工程学报.2007,14(2):7-10
42. 陈程,尹海清,曲选辉. 高纯钼断口形貌和组织分析. 稀有金属.2007,31(1):18-23
43. Haiqing Yin, ChengchangJia, Xuanhui Qu, Study on Manufacture of 2:17 Sm-Co magnets by powder injection molding, Materials Science Forum, 2005,475-479: 2143-2146.
44. Haiqing Yin, S. Kirihara, and Y.Miyamoto, Development of 3D ceramic photonic bandgap structures, Key Engineering Materials, 2005, 280-283: 533-536.
45. Yin, Haiqing, Jia, Chengchang; Qu, Xuanhui. Study on Manufacture of 2:17 Sm-Co magnets by powder injection molding. Materials Science Forum, 2005, 475-479: 2143-2146