Born in 1965, Changsha, Hunan. Mainly engaged in powder metallurgy advanced materials and new technology research.

The main research directions include rapid solidification and spray deposition，preparation of special powder，metal injection molding and metal materials and heat treatment. It has presided over and participated in more than 60 projects of National Natural Science Foundation of China, provincial and enterprise technology development projects.Published more than 40 SCI papers，15 invention patents.

Majored in undergraduate ' Materials Science Foundation ', ' Engineering Materials ' course teaching, and graduate ' Modern ( Engineering ) Materials Preparation Technology ', ' Material Thermodynamics ' course teaching.

september 2001-June 2005, Hunan University, Material Science, PhD, Tutor : Chen Zhenhua

september 1993-June 1996, Central South University, Powder Metallurgy, Master, Tutor : Chen Zhenhua

september 1981-June 1985, Jiangxi University, Metal Physics, bachelor

september 2001-present, Associate Professor / Professor, College of Materials, Hunan University

september 1996-June 2001, Director, Powder Center, Institute of Non-equilibrium Materials, Central South University

July 1985-August 1993, Teacher, Yichun Phoenix Vocational High School (No. 2 Middle School), Jiangxi Province

1.   Rapid solidification and spray deposition: Mainly using rapid solidification/powder metallurgy, spray deposition process to prepare high performance lightweight materials, especially spray deposition preparation of high performance particle reinforced aluminum matrix composites

2.   Preparation of fine metal powder by atomization : Mainly studies the equipment and process of preparing fine metal and its alloy powder by double flow atomization

3.   Study on Application of Resin-based Friction Materials: Mainly study the formulation and process of resin-based friction materials, develop high friction coefficient, high wear-resistant synthetic brake shoes ( pieces ) to meet the braking needs of high-speed heavy vehicles

4.   Metal injection molding process : Research on the preparation of high-performance stainless steel, high-density alloy and other components by using the developed plastic-based system combined with the formulation and process

5.   Research on heat treatment process of ultra-high strength steel and special high speed steel : The microstructure, composition and evolution of heat treatment process of ultra-high strength steel and special high speed steel were studied to explore the development and application in sawing industry.

1. Published papers

[1] 陈刚，邓人钦，贾寓真，刘国跃，吕蓉. WCp/M42高速钢复合材料的制备与性能[J].有色金属工程.2022,12（8）：30-38

[2]  吴昊，陈刚，唐啸天，沈书成. Cu含量对CoCrFeNiMnAlCux高熵合金微观组织及性能的影响[J].有色金属工程.2022，12（7）：1-9

[3]  Yiping Wu ,Yuzhen JIA, Sha Zhang, Yu Liu, Hanqing Xiong, Gang Chen*.Flow softening and dynamic recrystallization behavior of a Mg-Gd-Y-Nd-Zr alloy under elevated temperature compressions. Journal of Magnesium and Alloys.2021: https://doi.org/10.1016/j.jma.2021.11.009

[4]  陈刚，姚远超，贾寓真，苏斌，刘国跃，曾斌. 热处理工艺对双金属带锯条背材30Cr4MoNiV钢组织和性能的影响[J].金属热处理. 2022,47（1）：266-271

[5]  张昊, 陈刚, 罗涛, 沈书成. 基于铝热反应Cu-Fe二元合金的微观组织与摩擦性能研究[J]. 材料工程. 2021:1-10.

[6]  Chen Gang, Luo Tao, Shen Shucheng, Zheng Jixiang, Tang Xiaotian, Tao Tao, Xue Wei. Tungsten particles reinforced high-entropy alloy matrix composite prepared by in-situ reaction[J]. Journal of Alloys and Compounds. 2021,862:158037.

[7]  Chen Gang, Yao Yuanchao, Jia Yuzhen, Su Bin, Liu Guoyue, Zeng Bin. Hot Deformation Constitutive Equation and Plastic Instability of 30Cr4MoNiV Ultra-High-Strength Steel[J]. Metals. 2021,11,(5):769.

[8]  陈刚, 罗涛, 唐啸天, 吴昊. 基于铝热反应多主元合金的成分调控[J]. 有色金属工程. 2021,11,(09):1-10.

[9]  Feng Xuhui, Sun Youping, Wan Siyu, Chen Gang, He Jiangmei. Effects of Aging Process on the Damping Performance of ZK60 Magnesium Alloys Prepared by Large Strain Rolling[J]. Materials. 2020,13,(23):5574.

[10] Liu Yu, Wang Zhipeng, Xiao Hui, Chen Gang, Fan Touwen, Ma Li. Mechanical properties of CrFeCoNiCux (0<=x<=0.3) HEAs from first-principles calculations[J]. RSC Advances. 2020,10,(68):41324-41331

[11] Chen Gang, Xue Wei, Jia Yuzhen, Shen Shucheng, Liu Guoyue. Microstructure and mechanical property of WC-10Co/RM80 steel dissimilar resistance spot welding joint[J]. Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing. 2020,776:139008.

[12] 陈刚, 罗涛, 沈书成, 陶韬，唐啸天，薛伟，夏义. 基于铝热反应FeCrNiCuAlSn_(0.5)高熵合金涂层的制备[J]. 材料导报. 2020,(17):1-16.

[13] Chen Gang, Tao Tao, Gao Ping-Ping, Xie Zhi-Yong, Wu Xiao-Bo. CORROSION PROTECTION OF AMORPHOUS CARBON COATING FOR THE BIPOLAR PLATES OF PEMFCs[J]. Surface Review and Letters. 2019,26,(9):1950059.

[14] Fan Cai-he, Ou Ling, Hu Ze-yi, Yang Jian-jun, Chen Gang, Yan Hong-ge. Microstructures and mechanical properties of BP/7A04 Al matrix composites[J]. Transactions of Nonferrous Metals Society of China. 2019,29,(10):2027-2034.

[15] Chen Gang, Zhu Lihua, Shen Shucheng, Zhou Chengshang. FeCrNiMnAl high-entropy alloy coating by spray deposition and thermite reaction[J]. Surface Engineering. 2019,35,(9):809-815.

[16] Chen Gang, Li Jiakun, Lv Hong, Wang Sen, Zuo Jian, Zhu Lihua. Mesoporous CoxSn(1-x)O2 as an efficient oxygen evolution catalyst support for SPE water electrolyzer[J]. Royal Society Open Science. 2019,6,(4):182223.

[17] Chen Gang, Shen Shu-cheng, Ni Song, Zhou Chen-shang. Spray deposition of FeCrNiMn and high carbon steel coatings by thermite reaction[J]. Journal of Central South University (English Edition). 2018,25,(12):2962-2970.

[18] Han Guosong, Chen Ding, Chen Gang, Huang Jianghua. Development of non-flammable high strength extruded Mg-A1-Ca-Mn alloys with high Ca/A1 ratio[J]. Journal of Materials Science & Technology. 2018,34,(11):2063-2068.

[19] Han Liuliu, Liu Yong, Chen Gang, Li Kun, Wang Jiawen, Zhou Rui. Formation of Graphite Phase in Powder Metallurgical Ultrahigh Carbon Steels with High Wear Resistance[J]. Advanced Engineering Materials. 2018,20,(8):1800002.

2. Projects undertaken

1.Hunan Yitong Xingqiao Auto Parts Co., Ltd. R&D project, guide arm material composition and process optimization, 2021.01.12-2024.04.30, 140,000, in research, chaired

2. Zhongshan Aubo Precision Technology Co., Ltd. R&D project, metal injection molding process optimization and blank forging production line construction, 2019.04.01-2023.03.10,120,000, in research, chaired

3. National natural science foundation of china, 51971091, based on the aluminothermic reaction of high entropy alloy melt spray deposition coating layer structure and performance control mechanism research, 2020.01.1-2023.12.31, 600,000, research, chaired

4. Hunan Valin Lianyuan Iron and Steel Co., Ltd. R & D project, bimetallic saw blade steel RM80 R&D and wear-resistant welded pipe steel performance testing,2022.06.20-2022.12.20,548,800,in research, chaired 5. Hunan Provincial Development and Reform Commission Project, Hunan Special Steel Substrate Engineering Research Center for High-end Sawing Tools [Joint Establishment], 2019.01.01-2021.12.31,90,000, completed, chaired

6. Hunan Valin Lianyuan Iron and Steel Co., Ltd. R&D project, bimetallic saw blade backing steel X32 / D6A composition and process optimization and application research, 2018.12.01-2020.06.30, 62 million, completed, chaired

7. Hunan Provincial Natural Science Foundation, 2016JJ2025, Research on Cladding Mechanism of High Temperature Melt Spray Deposition Based on Aluminothermic Reaction, 2016.01.01-2018.12.31, 50,000, completed, chaired

8. National Natural Science Iron and Steel Joint Fund, U1560105, Study on Thermal Wear Characteristics of Spray Deposition-Laser Remelting High Speed Steel Roll, 2016.01-2018.12,60 million yuan, completed, chaired by the joint party

9. Guangzhou Electric Locomotive R&D Project of CRRC Group, Research on Anti-wear Performance of SCT-121 Electric Wheel Dump Truck Brake Disc and Development of High-friction Synthetic Brake Pad, 2014.01-2017.12,250,000, chaired

10. Guangdong Provincial Science and Technology Plan Project, 2012B05100002, Joint Development and Industrialization of Preparation and Deflagration Spray Surface Modification of Automotive Aluminum Matrix High Performance (Spray Deposition) Composites, 2012.02-2015.08, 500,000, completed, chaired

3. Patents authorized

1. An in-situ tungsten particle reinforced high-entropy alloy matrix composite material and preparation method, ZL202010135616.5, the first inventor.

2. A method to improve the internal quality of high entropy alloy by laser additive manufacturing, ZL202011533223.6，the first inventor.

3. A modified flake graphite powder, a resin-based carbon brush and a preparation method thereof, ZL201910950437.4, the sixth inventor.

4. A recycling method for waste lithium iron phosphate battery cathode material, ZL201910629381.2, the first inventor.

5. A composite material containing high entropy alloy / ceramic continuous gradient composite coating and its preparation method and device, ZL201711431943.X,the first inventor.

6. A method and apparatus for preparing a composite material containing a high entropy alloy coating, ZL201711433757.X,the first inventor

7. Copper coated chromium composite powder and its preparation method and application, ZL201410152550.5, the first inventor

8. Method for preparing hollow disk parts by spray deposition, ZL201110400685.5, the first inventor.

1. Development and Application of Spray Deposited SiCp-Low Alloy Steel Wear Resistant Composites, Second Prize of Hunan Metal Society

2. Mobile crucible automatic control spray deposition technology and device, the Ministry of Education nominated scientific and technological progress 1 prize.

3. Research on the Principle of Solid Atomization Process of Liquid Metals and Alloys, 3rd Prize of Science and Technology Progress Award of Machinery Industry Federation

4. Research on ceramic particle reinforced aluminum matrix composites, Hunan Science and Technology Progress Award, 3rd prize

5. Multi-Layer Spray Deposition Technology and Devices, Machinery Industry Federation Award for Progress in Science and Technology, 2nd prize

6. Spray Deposition Preparation Technology and Device for Large Size Billets, Hunan Science and Technology Progress Award 3rd prize

7. Research on wedge pressing hot densification molding of large size non-ferrous alloy porous billet, Ministry of Machinery Industry Science and Technology Progress Award, 2nd prize

8. Study on Technology of Preparing Fine Powder of Intermetallic Compound by Solid-Liquid Reaction Ball Milling, Science and Technology Progress Award of Ministry of Machinery Industry, 2nd prize