陈顺华SH Chen

教授

教授 博士生导师 硕士生导师

所在单位:机械工程学院

学历:博士研究生毕业

办公地点:机械楼

主要任职:机械制造工程系主任、领域交叉融合制造技术团队负责人

个人简介

   香港理工大学博士、博士后(Postdoctoral Fellow),现任合肥工业大学机械工程学院教授、博士生导师,省级领军人才,机械制造工程系主任,领域交叉融合制造技术科研团队负责人;中国机械工程学会特种加工分会委员,安徽省机械工程学会热处理专业委员会常务理事;先后入选香港理工大学博士后计划、合肥工业大学“黄山青年学者”、安徽省高层次人才计划。

   面向制造业“新材料,新工艺,新技术,新装备”四新战略发展需,陈顺华教授于2017年创立领域交叉融合制造技术科研团队,融合新材料、传统加工技术、特种加工技术、智能装备、智能制造等不同领域前沿,开展领域交叉融合制造技术研究。团队目前拥有教授、副教授、讲师、博士后、研究生等30余人,具体研究方向如下图所示。

  欢迎相关领域专家、学者、企业家洽谈合作!!

  欢迎有志于从事领域交叉融合制造技术的同学们报考我们团队博士、硕士研究生!!


团队方向.jpg





 陈顺华教授近年来在Acta Materialia, Scripta Materialia, Applied Physics Letters, Journal of Manufacturing Processes, Materials Science & Engineering A, Journal of Materials Science & Technology, Materials and Design, Intermetallics, Journal of Alloys and Compounds, The International Journal of Advanced Manufacturing Technology, Optics and Laser Technology, Precision Engineering 等国际知名期刊上发表SCI收录学术论文100余篇,申报发明专利60余项,其中已获授权发明专利40余项。部分代表性成果如下: 

一、研究论文

(55)Haidong Yang, Libao Zhang, Haodong Li, Junsheng Zhang, Huohong Tang, Shunhua Chen, Influence of tool corner radius on chip geometrical characteristics of machining Zr-based bulk metallic glass, Journal of Advanced Manufacturing Science and Technology, 2025, 5(2): 2025012.

(54)Jiayao Chen, Shunhua Chen, Junsheng Zhang, Xiaokang Yue, Huohong Tang,Qiang Wu. Enhancing the anodic dissolution uniformity of dendritic-structured refractory high entropy alloys using a split electrolytic cell with a deep eutectic solvent. Surface & Coatings Technology, 2024, 494 Part 2:131460.

(53) Juchen Zhang, Haitao Xu, Yang Liu, Xiaokang Yue and Shunhua Chen. Anodic dissolution behavior of a Zr-based bulk metallic glass and the electrochemical machining of small structures with high geometrical precision and good surface quality. Precision Engineering, 2024, 89: 161-173.

(52) Shunhua Chen, Xufan Peng, Hewei Gu, Qiang Wu, Weijie Chang, Bolin Dong and Xiaokang Yue. Electropolishing of complex-shaped bulk metallic glasses in NaCl-ethylene glycol electrolyte. Materials Today Communications, 2024, 40: 109630.

(51) Junsheng Zhang, Rang Li, Haidong Yang, Zhenhua Qing and Shunhua Chen. Tool wear characteristics of interrupted-cutting Zr-based bulk metallic glasses with cemented carbide tool. The International Journal of Advanced Manufacturing Technology, 2024, 133(5-6): 2623-2637.

(50) Huohong Tang, Xuebin Li, Li Meng, Zufang Zhang and Shunhua Chen. Process modeling and optimization in laser drilling of bulk metallic glasses based on GABPNN and machine vision. Optics & Laser Technology, 2024, 172: 110502.

(49) Chong Li, Shunhua Chen, Xin Chen, Xiaokang Yue, Jiaqin Liu, Junsheng Zhang and Yucheng Wu. High uniformity of the mechanical properties of arc-melted WNbMoTaZr refractory high Entropy alloy. Intermetallics, 2024, 167: 108213.

(48) Junsheng Zhang, Rang Li, Libao Zhang, Haidong Yang, Huohong Tang and Shunhua Chen. On the tool wear mechanism of machining Zr-based bulk metallic glasses under varying corner radii. Journal of Non-Crystalline Solids, 2024, 624: 122722.

(47) Jingsai Zhang, Xiaokang Yue, Junsheng Zhang, Yong Wang and Shunhua Chen. Effect of constituent phase and processing parameter on the WEDM performance of refractory high Entropy alloys. The International Journal of Advanced Manufacturing Technology, 2024, 130(3-4): 1509-1526.

(46) 刘灿锋,常伟杰,唐火红,张聚臣,陈顺华. 非晶合金复合材料电火花线切割加工工艺研究,电加工与模具,2023, 1:26-31.

(45) H.H. Tang, X.B. Li, J.S. Zhang, D. Zhou, Z.W. Wu and S.H. Chen. Fractal analysis on the uniformity between the shear bands and serrated flows of a Zr-based bulk metallic glass. Intermetallics, 2023, 162: 107999.

(44) C. Li, S.H. Chen, H.H. Tang, J.S. Zhang, J.Q. Liu and Y.C. Wu. Dendrite structure-induced tunable plastic deformation behavior in (Ti-V-Cr)100-xWx refractory high Entropy alloys. International Journal of Refractory Metals and Hard Materials, 2023, 116: 106329.

(43) Haidong Yang, Xu Wang, Junsheng Zhang, Huohong Tang, Zhenhua Qing and Shunhua Chen. On the cutting performance and chip characteristics of WNbMoTaZr0.5 refractory high Entropy alloy. The International Journal of Advanced Manufacturing Technology, 2023, 128(11-12): 4893-4912.

(42) Huohong Tang, Maohu Cheng, Weijie Chang, Yingyue Yin, Bolin Dong, Qin Yang and Shunhua Chen. Effects of processing parameters on the surface roughness of Zr-based bulk metallic glass processed by wire electrical discharge machining. The International Journal of Advanced Manufacturing Technology, 2023, 128(1-2): 41-56.

(41) Junsheng Zhang, Yongsen Shang, Haidong Yang, Huohong Tang and Shunhua Chen. On the stress field redistribution of tool-chip interface for micro-groove textured tools. The International Journal of Advanced Manufacturing Technology, 2023, 126(9-10): 4637-4650.

(40) Shunhua Chen, Hewei Gu, Jingyuan Wang, Weijie Chang and Kangcheung Chan. Processing of monolithic bulk metallic glass using sinking electrical discharge machining. The International Journal of Advanced Manufacturing Technology, 2023, 126(11-12): 5057-5080.

(39) Shunhua Chen, Kuang Xu, Weijie Chang, Yong Wang and Yucheng Wu. On the WEDM of WNbMoTaZrx (x = 0.5, 1) Refractory High Entropy Alloys. Entropy, 2022, 24(12): 1796.

(38) Junsheng Zhang, Haidong Yang, Huohong Tang and Shunhua Chen. Study on the tool life analysis for free-cutting steels. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2022, 236(13): 1706-1715.

(37) H.H. Tang, L. Meng, J.S. Zhang, D. Zhou and S.H. Chen. On the serration evolution of cellular bulk metallic glass monitored by fractal analysis. Journal of Non-Crystalline Solids, 2022, 596: 121844.

(36) Shunhua Chen, Chen Qi, Jiaqin Liu, Jingsai Zhang and Yucheng Wu. Recent Advances in W-Containing Refractory High-Entropy Alloys—An Overview. Entropy, 2022, 24(11): 1553.

(35) Jingsai Zhang, Shunhua Chen, Jiaqin Liu, Zhenhua Qing and Yucheng Wu. Microstructure and Mechanical Properties of Novel High-Strength, Low-Activation Wx(TaVZr)100−x (x = 5, 10, 15, 20, 25) Refractory High Entropy Alloys. Entropy, 2022, 24(10): 1342.

(34) H.D. Yang, L.B. Zhang, J.S. Zhang, H.H. Tang and S.H. Chen. Effect of sample size and cooling rate on the plastic deformation behavior of bulk metallic glasses: A comparative study. Journal of Non-Crystalline Solids, 2022, 589: 121643.

(33) Guo-Ning Ji, Jun Xiang, Rong-Da Zhao, Fu-Fa Wu and Shun-Hua Chen. Microstructure and mechanical properties of NixFeCoCrAl high-Entropy alloys. Materials Today Communications, 2022, 32: 103919.

(32) Shunhua Chen, Hewei Gu, Kangkang Feng, Hongmei Zheng and Ke Chen. A comparative study on the die-sinking EDM performance of bulk metallic glass composites under rough and refined conditions. The International Journal of Advanced Manufacturing Technology, 2022, 121(7-8): 4865-4883.

(31) Weijie Chang, Xiangxiang Li, Haidong Yang, Junsheng Zhang, Juchen Zhang, Huohong Tang and Shunhua Chen. On the wire EDM of metastable atomic structured bulk metallic glasses. The International Journal of Advanced Manufacturing Technology, 2022, 120(7-8): 5411-5430.

(30) C. Li, S.H. Chen, Z.W. Wu, Z.F. Zhang and Y.C. Wu. Development of high-strength WNbMoTaVZrx refractory high Entropy alloys. Journal of Materials Research, 2022, 37(9): 1664-1678.

(29) Haidong Yang, Yusong Wu, Junsheng Zhang, Huohong Tang, Weijie Chang, Juchen Zhang and Shunhua Chen. Study on the cutting characteristics of high-speed machining Zr-based bulk metallic glass. The International Journal of Advanced Manufacturing Technology, 2022, 119(5-6): 3533-3544.

(28) W.J. Chang, S.Y. Wang, H.H. Tang, B.L. Dong, Q. Yang, J.Y. Chen and S.H. Chen. Development of a micro-electrochemical machining nanosecond pulse power supply. Review of Scientific Instruments, 2022, 93(2): 024707.

(27) H.H. Tang, L. Meng, J.C. Zhang, H.D. Yang, J.S. Zhang, D. Zhou, W.J. Chang and S.H. Chen. On the fractal analysis of the serration behavior of a bulk metallic glass composite. Journal of Alloys and Compounds, 2022, 895: 162605.

(26) S.H. Chen, J.S. Zhang, S. Guan, T. Li, J.Q. Liu, F.F. Wu and Y.C. Wu. Microstructure and mechanical properties of WNbMoTaZrx (x = 0.1, 0.3, 0.5, 1.0) refractory high Entropy alloys. Materials Science and Engineering: A, 2022, 835: 142701.

(25) S.H. Chen, Q. Ge, J.S. Zhang, W.J. Chang, J.C. Zhang, H.H. Tang and H.D. Yang. Low-speed machining of a Zr-based bulk metallic glass. Journal of Manufacturing Processes, 2021, 72: 565-581.

(24) S.H. Chen, C. Li, J.S. Zhang, Y.Q. Qin, H.D. Yang, J.C. Zhang, W.J. Chang, H.H. Tang and Y.C. Wu. On the relationship between the accumulation and release of elastic energy during the flow serrations of a Zr-based bulk metallic glass. Materials Science and Engineering: A, 2021, 817: 141423.

(23) K. Chen, M. Yuan, H.M. Zheng and S.H. Chen. On the determination and optimization of apparent “elastic Limit” of kirigami metallic glasses. Physica B: Condensed Matter, 2021, 609: 412901.

(22) S.H. Chen, T. Li, W.J. Chang, H.D. Yang, J.C. Zhang, H.H. Tang, S.D. Feng, F.F. Wu and Y.C. Wu. On the formation of shear bands in a metallic glass under tailored complex stress fields. Journal of Materials Science & Technology, 2020, 53: 112-117.

(21) S.H. Chen, H.H. Tang, H.M. Zheng, W.J. Chang, J.C. Zhang, H.D. Yang, Z.F. Zhang, D.B. Yu, K.C. Chan and R.P. Liu. Achieving stable plastic flows in a Zr-based bulk metallic glass under tailored mixed-mode (I/II) loading conditions. Materials Science and Engineering: A, 2020, 772: 138695.

(20) 常伟杰,李祥祥,王靖元,李豪威,陈顺华. 金属玻璃电火花加工技术国内外研究现状综述,航空制造技术,2019,62:14-18.

(19) S.H. Chen, K.C. Chan, D.X. Han, L. Zhao and F.F. Wu. Programmable super elastic kirigami metallic glasses. Materials & Design, 2019, 169: 107687.

(18) H.Y. Cheng, S.H. Chen, Y.Q. Qin, S.D. Feng, K.C. Chan and Y.C. Wu. On the variation of the mechanical energy accumulation rates during the flow serrations of a Zr-based bulk metallic glass. Journal of Non-Crystalline Solids, 2019, 508: 1-6.

(17) Shunhua Chen, Jingyuan Wang, Lei Xia and Yucheng Wu. Deformation Behavior of Bulk Metallic Glasses and High Entropy Alloys under Complex Stress Fields: A Review. Entropy, 2019, 21(1): 54.

(16) H.H. Tang, Y.C. Cai, Q. Zuo, S.H. Chen and R.P. Liu. Achieving high uniformity of the elastic strain energy accumulation rate during the serrated plastic flows of bulk metallic glasses. Materials Science and Engineering: A, 2018, 736: 269-275.

(15) S.H. Chen, H.Y. Cheng, K.C. Chan and G. Wang. Metallic Glass Structures for Mechanical-Energy-Dissipation Purpose: A Review. Metals, 2018, 8(9): 689.

(14) S.H. Chen, A. Domel, T.M. Yue, C.P. Tsui, K.C. Chan, K.A. Dahmen and P.K. Liaw. Deformation behavior of bulk metallic glasses under a mixed-mode (I/II) loading condition. Intermetallics, 2018, 93: 148-154.

(13) S.H. Chen, K.C. Chan, T.M. Yue and F.F. Wu. Highly stretchable kirigami metallic glass structures with ultra-small strain energy loss. Scripta Materialia, 2018, 142: 83-87.

(12) S.H. Chen, T.M. Yue, C.P. Tsui and K.C. Chan. Flaw-induced plastic-flow dynamics in bulk metallic glasses under tension. Scientific Reports, 2016, 6(1): 36130.

(11) J.J. Fan, Y.F. Yan, S.H. Chen, Chi-Ho Ng, F.F. Wu and K.C. Chan. Reliability of the plastic deformation behavior of a Zr-based bulk metallic glass. Intermetallics, 2016, 74: 25-30.

(10) S.H. Chen, T.M. Yue, C.P. Tsui and K.C. Chan. Effect of external disturbances on the strain-rate dependent plastic deformation behavior of a bulk metallic glass. Materials Science and Engineering: A, 2016, 669: 103-109.

(9) S.H. Chen, K.C. Chan, G. Wang and J. Yi. Saw-tooth-like bulk metallic glass structures with greatly enhanced energy-absorption performance. Journal of Alloys and Compounds, 2016, 661: 49-54.

(8) S.H. Chen, K.C. Chan, G. Wang, F.F. Wu, L. Xia, J.L. Ren, J. Li, K.A. Dahmen and P.K. Liaw. Loading-rate-independent delay of catastrophic avalanches in a bulk metallic glass. Scientific Reports, 2016, 6(1): 21967.

(7) S.H. Chen, D. Ding, P. Yu, Z.W. Wang and L. Xia. Hierarchical amorphous structures in a Zr50Cu42Al8 bulk metallic glass. Materials Science and Engineering: A, 2015, 639: 75-79.

(6) S.H. Chen, K.C. Chan, F.F. Wu and L. Xia. Achieving high energy absorption capacity in cellular bulk metallic glasses. Scientific Reports, 2015, 5(1): 10302.

(5) Shun-Hua Chen, Kang-Cheung Chan and Lei Xia. Fracture Morphologies of Zr‐Based Bulk Metallic Glasses Under Different Stress States. Advanced Engineering Materials, 2015, 17(3): 366-373.

(4) S.H. Chen, K.C. Chan and L. Xia. Deformation behavior of bulk metallic glass structural elements. Materials Science and Engineering: A, 2014, 606: 196-204.

(3) S.H. Chen, K.C. Chan, F.F. Wu and L. Xia. Pronounced energy absorption capacity of cellular bulk metallic glasses. Applied Physics Letters, 2014, 104(11): 111907.

(2) S.H. Chen, K.C. Chan and L. Xia. Deformation behavior of a Zr-based bulk metallic glass under a complex stress state. Intermetallics, 2013, 43: 38-44.

      (1) S.H. Chen, K.C. Chan and L. Xia. Effect of stress gradient on the deformation behavior of a bulk metallic glass under uniaxial tension. Materials Science and Engineering: A, 2013, 574: 262-265.


 

二、授权发明专利


16.陈顺华等;一种金相样品打磨装置;

15.陈顺华等;一种熔点分级的合金熔炼装置及方法;

14.陈顺华等;一种叶片的电解抛光装置;

13.陈顺华等;一种高塑性的WTaTiVC系难熔高熵合金及其制备方法;

12.陈顺华等;一种异形零件电解抛光设备及其抛光方法;

11.陈顺华等;一种Ti-V-C系难熔高熵合金及其制备方法;

10.陈顺华等,一种连续制备多种致密合金的装置及方法;

9.陈顺华等,一种高强度高硬度的W-Ta-V-Zr系难熔高熵合金及其制备方法;

8.陈顺华等;一种单相WNbMoTaZr系难熔高熵合金及其制备方法;

7.陈顺华等,一种高塑性的NbMoTaTiWC系难熔高熵合金及其制备方法;

6.陈顺华等,一种薄壁圆筒群孔加工装置及其加工方法;

5.陈顺华等,一种用于柔性零件的电解加工工具;

4.陈顺华等,一种手机壳出声孔加工设备;

3.陈顺华等,一种电火花成形加工复杂型腔的装置及方法;

2.陈顺华等,一种电极群孔电解加工工艺装置;

1.陈顺华等,一种分布式模块化车载电池管理系统。



工作经历

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研究方向

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团队成员

团队名称:领域交叉融合制造技术团队

团队介绍:

面向制造业“新材料,新工艺,新技术,新装备”四新战略发展需求,陈顺华教授于2017年创立领域交叉融合制造技术科研团队,融合新材料、传统加工技术、特种加工技术、智能装备、智能制造等不同领域前沿,开展领域交叉融合制造技术研究。团队目前拥有教授、副教授、讲师、博士后、研究生等30余人,近年来承担国家自然科学基金、省科技重大专项、省重点研发等各类纵向课题共30余项,承担企业委托课题40余项,具有丰富的基础研究、技术开发、新产品开发经验。