陈刚,1984年生,工学博士(新西兰奥克兰大学),陕西省特支计划青年拔尖人才、陕西省青年科技新星,新材料技术研究院副研究员、硕士生导师。
工作及研究经历:
2018.03至今 北京科技大学新材料技术研究院
2014.12~2018.03 西北有色金属研究院金属多孔材料国家重点实验室
2014.04~2014.09 新西兰奥克兰大学(The University of Auckland)博士后
2013.11~2014.05 美国西北大学(Northwestern University)访问学者
2014.07 澳大利亚昆士兰大学(The University of Queensland)访问科学家
2013.05、2014.08 澳大利亚核科学技术研究院(ANSTO)客座研究员
教育经历:
2014 新西兰奥克兰大学(The University of Auckland) 博士
2010 中南大学 硕士
2007 浙江工业大学 学士
科研项目:
1、国家自然科学基金委员会,面上项目,51971036,基于流化技术制备3D打印低成本钛粉的基础研究,2020-01至2023-12,60万元,在研,主持
2、山东省科技厅,山东省重点研发计划(重大科技创新工程竞争择优类第一批)项目子课题,2019JZZY010327,3D打印和注射成形用低成本金属粉末制备及应用技术,2019-01至2021-12,236万元,在研,主持
3、中国博士后科学基金会,第64批中国博士后科学基金面上一等资助,2018M640064,低成本球形钛粉的制备及其脱氧传质机理研究,2019-01至2020-12,8万元,在研,主持
4、国家自然科学基金委员会,面上项目,51874037,Sn在TiAl粉末烧结过程的浸润行为及其合金化机理,2019-01至2022-12,60万元,在研,参与
5、军委科技委,十三五规划军工关键共性技术科研项目子课题,增材制造用XXXX粉末研制,2018-01至2020-06,200万元,在研,主持
6、国家自然科学基金委员会,青年项目,51604228,气雾化球形钛合金粉末内部气孔的形成机制研究,2017-01至2019-12,20万元,已结题,主持
7、科技部,国家重点研发计划“重点基础材料技术提升与产业化”项目,2017YFB0305800,超细3D打印有色/难熔金属球形粉末制备技术,2017-01至2020-12,1459万元,在研,参与
8、国防科工局,军品配套项目,J16Z18-Z,XXXX多孔透气片研制,2016-06至2016-12,220万元,已结题,主持
9、澳大利亚核科学与工程研究院(AINSE),全球开放课题,P4788,Kinetic study of hydrogen release from titanium hydride using neutron imaging,2016-06,49700澳元,已结题,主持
10、工信部,工业强基项目子课题,K16Z112-S,超细钛合金粉末关键技术,2016-04至2018-04,800万元,已结题,主持
11、陕西省科技厅,陕西省科技统筹创新工程计划战略性新兴产业重大产品(群)项目,2016KTCQ01-113,3D打印用球形钛钽合金粉末技术开发,2016-01至2017-12,40万元,已结题,主持
12、陕西省科技厅,陕西省青年科技新星计划项目,2016KJXX-78,球形钛镍合金粉末开发及其3D打印制品的力学性能研究,2016-01至2017-12,10万元,已结题,主持
13、陕西省科技厅,陕西省科技统筹创新工程计划重大项目,2016KTZDCY-02-01,增材制造专用金属合金的成分设计及原材料制备技术,2016-01至2017-12,300万元,已结题,参与
14、澳大利亚核科学与工程研究院(AINSE),全球开放课题,P3430,he clarification of two puzzles in the current Ti-Ni binary phase diagram,2014-11,31400澳元,已结题,主持
15、澳大利亚核科学与工程研究院(AINSE),全球开放课题,P2716,In situ phase development of Ni and Ti/TiH2 elemental compacts during vacuum sintering using n-diffraction,2013-05,31400澳元,已结题,主持
著作:
[1] Huiping Tang, Ma Qian, Yong Liu, Peng Cao, Gang Chen. Titanium Powder Metallurgy and Additive Manufacturing in ‘4th International Conference on Titanium Powder Metallurgy & Additive Manufacturing’, Xi’an, P.R. China. Trans Tech Publications, 2018.
论文:
[1] G. Chen, K. Liss, P. Cao*. In situ observation and neutron diffraction of NiTi powder sintering. Acta Materialia, 67 (2014) 32-44.
[2] G. Chen, K.-D. Liss, G. Auchterlonie, H.P. Tang, P. Cao*. Dehydrogenation of TiH2: an in situ study. Metallurgical and Materials Transactions A, 48(2017) 2949–2959.
[3] G. Chen, K-D. Liss, P. Cao*. An in-situ study of sintering behaviour and phase transformation kinetics in NiTi alloys using neutron diffraction. Metallurgical and Materials Transactions A, 46 (2015), 5887-5899.
[4] Wangwang Ding, Gang Chen*, Mingli Qin*, Yuehui He, Xuanhui Qu. Low-cost Ti powders for additive manufacturing treated by fluidized bed. Powder Technology, 350 (2019) 117-122.
[5] Gang Chen*, Jingou Yin, Shaoyang Zhao, Huiping Tang, Xuanhui Qu. Microstructure and tensile properties of a Ti-28Ta alloy studied by transmission electron microscopy and digital image correlation. International Journal of Refractory Metals and Hard Materials, 81 (2019) 71-77.
[6] Quan Zhou, Muhammad Dilawer Hayat, Gang Chen*, Song Cai, Xuanhui Qu, Huiping Tang*, Peng Cao*. Selective electron beam melting of NiTi: microstructure, phase transformation and mechanical properties. Materials Science and Engineering: A, 744 (2019) 290-298.
[7] Gang Chen*, Klaus-Dieter Liss, Peng Cao, Xin Lu, Xuanhui Qu. Neutron diffraction and neutron radiography investigation into powder sintering of Ti/Al and TiH2/Al compacts. Metallurgical and Materials Transactions B, 50 (2019) 429-437.
[8] G. Chen, P. Cao*. NiTi powder sintering from TiH2 powder: an in situ investigation. Metallurgical and Materials Transactions A, 44 (2013) 5630-5633.
[9] G. Chen*, S.Y. Zhao, P. Tan, J. Wang, C.S. Xiang, H.P. Tang*. A comparative study of Ti-6Al-4V powders for additive manufacturing by gas atomization, plasma rotating electrode process and plasma atomization. Powder Technology, 333 (2018) 38-46.
[10] G. Chen*, S.Y. Zhao, J.O. Yin, P. Tan, Z.F. Li, Y. Ge, J. Wang, H.P. Tang*. A study of pore morphology characterization of gas-atomized Ti-6Al-4V powders by synchrotron X-ray computed tomography. Powder Technology, 330 (2018) 425-430.
[11] J.O. Yin, G. Chen*, S.Y. Zhao, Y. Ge, Z.F. Li, P.J. Yang, W.Z. Han, J. Wang, H.P. Tang*, P. Cao. Microstructural characterization and properties of Ti-28Ta at.% powders produced by plasma rotating electrode process. Journal of Alloys and Compounds, 713(2017) 222-228.
[11] G. Chen, S.Y. Zhao, P. Cao, P. Tan, J.O. Yin, Q. Zhou, Y. Ge, Z.F. Li, J. Wang, H.P. Tang*. Shape memory TiNi powders produced by plasma rotating electrode process for additive manufacturing. Transactions of Nonferrous Metals Society of China, 27 (2017) 2647-2655.
[12] G. Chen*, G.Z. Li, C.S. Xiang, S.Y. Zhao, P. Tan, H.P. Tang*, Peng Cao. Characterisation and properties of powder-rolled porous Ti sheets and IrO2/Ti electrodes. Powder Metallurgy, 59 (2016) 249-255.
[13] G. Chen, N. Edmonds, P. Cao*. A comparative study on microstructure and compressive properties of NiTi alloys sintered from Ni/Ti and Ni/TiH2 blends. International Journal of Powder Metallurgy, 51 (2015) 39-50. (Front cover)
[14] G. Chen*, G. Wen, N. Edmonds, P. Cao. Water debinding behaviour of a water-soluble Ti-MIM feedstock. Powder Metallurgy, 58 (2015) 220-227.
[15] G. Chen*, K. Liss, P. Cao*. An in situ study of NiTi powder sintering using neutron diffraction. Metals, 5 (2015) 530-546.(Invited)
[16] G. Chen, P. Cao*, N. Edmonds. Porous NiTi alloys produced by press-and-sinter from Ni/Ti and Ni/TiH2 mixtures. Materials Science and Engineering, A 582 (2013) 117-125.
[17] G. Chen, P. Cao*, G. Wen, N. Edmonds. Debinding behaviour of a water soluble PEG/PMMA binder for Ti metal injection moulding. Materials Chemistry and Physics, 139 (2013) 557-565.
[18] G. Chen, P. Cao*, G. Wen, N. Edmonds, Y. Li. Using an agar-based binder to produce porous NiTi alloys by metal injection moulding. Intermetallics, 37 (2013) 92-99.
[19] G. Chen, P. Cao*, Y. He*, P. Shen, H. Gao. Effect of aluminium evaporation loss on pore characteristics of porous FeAl alloys produced by vacuum sintering. Journal of Materials Science, 47 (2012) 1244-1250.
授权的专利:
[1] 一种3D打印用低成本钛粉的流化整形制备方法。秦明礼、陈刚、丁旺旺、曲选辉。专利授权号:ZL201811408679.2。
[2] 一种钛及钛合金球形粉末的真空感应熔炼气雾化制备方法。陈刚、谈萍、赵少阳、王建、贺卫卫、刘晓青、贾亮。专利授权号:ZL201510633212.8。
[3] 一种增材制造用钛铝基合金粉末材料及其制备方法。李增峰、陈刚、谈萍、汤慧萍、葛渊、赵少阳、沈垒、殷京瓯、文佳艺、王建、石英。专利授权号:ZL201710597052.5。
[4] 一种气雾化制备粒径细化钛基球形粉末的方法。赵少阳、陈刚、汤慧萍、王建、李增峰、谈萍、殷京瓯、葛渊、沈垒、文佳艺。专利授权号:ZL201710752593.0。
[5] 一种球形TiTa合金粉末的制备方法。陈刚、赵少阳、李增峰、汤慧萍、殷京瓯、葛渊。专利授权号:ZL201611037627.X。
获奖情况:
1、 2017年度陕西省“特支计划”青年拔尖人才称号, 2017年
2、 2016年度陕西省“青年科技新星”称号, 2015年
3、 Bright Sparks award for ‘Titanium Feedstock’, New Zealand, 2013年
4、 Spark Idea Challenges award for ‘Porous NiTi for Healthcare’, New Zealand, 2012年
5、 Bright Sparks Challenge award for ‘Clean Tech for Sulfide’, New Zealand, 2011年
学术兼职与服务:
1、中国金属学会粉末冶金分会秘书长
2、粉末冶金产业技术创新战略联盟副秘书长
3、TMS粉体材料学术委员会(Powder Materials Committee)委员
4、《中南大学学报(英文版)》青年编委
5、审稿委员会委员(Key Reader): Metallurgical and Materials Transactions A
6、期刊审稿人:Metallurgical and Materials Transactions A/B、JOM、Vacuum、Materialia、Transactions of Nonferrous Metals Society of China、Powder Technology、Journal of Alloys and Compounds、Journal of Materials Science & Technology、粉末冶金工业
7、项目评审人:Beam time proposal for Australian Nuclear Science and Technology Organisation
8、国内会议组织者:第六届全国有色金属结构材料制备加工及应用技术交流会“粉末冶金技术分论坛”,2020年7月24日至26日,长沙
9、国际会议组织者:5th International Conference on Powder Metallurgy and Additive Manufacturing of Titanium (PMTi 2019), Salt Lake City, Utah, USA
10、国内会议组织者:“新型有色金属材料及其加工”——中国有色金属第4期优秀青年学者论坛“增材制造与粉末冶金青年学者分论坛”,2019年8月4日至6日,太原
11、国际会议秘书长及组织者:4th International Conference on Titanium Powder Metallurgy & Additive Manufacturing (PMTi 2017), Xi’an, P.R. China, 8th to 10th September 2017
12、国际会议组织者:10th International Conference on Porous Metals and Metallic Foams, Nanjing, P.R. China, 14th to 17th September 2017
