陈培见，男，1986年10月生，山东泰安人，教授，博士生导师，哈佛大学访问学者。2013年博士毕业于中国科学院力学研究所。现为国家自然科学基金函评专家，江苏省力学学会计算力学专委会和实验力学分委会副主任委员、江苏省振动工程学会理事、中国力学学会会员、中国机械工程学会高级会员。主要从事于表面/界面力学等方面的研究，近年来已公开发表SCI论文50余篇，包括IJSS、IJMS、MM、EFM、JAM、EML等国际力学权威期刊，并在《力学进展》上发表综述文章，出版专著一部。担任《力学学报》和《力学与实践》青年编委、SCI杂志《Coatings》，《CMES-Computer Modeling in Engineering & Sciences》，《Advances in Civil Engineering》的客座编辑，担任校/学院教授委员会委员，兼任多个国际期刊审稿人。

入选江苏省“333人才工程”第三层次、江苏省科协青年科技人才托举工程，荣获江苏省力学会“学会工作先进个人”、中国科学院院长优秀奖、中国科学院大学“三好学生标兵”、博士生国家奖学金、中国科学院力学研究所“郭永怀奖学金一等奖”、中国科学院优秀博士论文提名。目前主持国家自然科学面上基金、国家自然科学青年基金、江苏省自然科学基金、中国博士后特别资助、中国博士后面上基金一等资助、江苏省博士后基金、中央高校基金科研业务费学科前沿项目、中国矿业大学青年科技基金、人才引进启动基金以及启航计划等科研项目。

工作经历：

2020年1月至今      中国矿业大学 力学与土木工程学院    教授（破格）

2016年1月-2019年12月  中国矿业大学 力学与土木工程学院    副教授

2018年3月-2019年3月  哈佛大学 工程与应用科学学院   访问学者

2013年7月-2015年12月  中国矿业大学 力学与土木工程学院   讲师   

教育经历：

2004年8月-2008年7月    山东大学    学士学位

2008年9月-2013年7月    中国科学院力学研究所    博士学位

联系方式：QQ:   2033128749

                 Email: chenpeijian@cumt.edu.cn or peijian_163@163.com

欢迎力学、机械、物理等相关专业的同学报考研究生！

代表性论文(#为共同作者，*为通讯作者)：

1. Lou L., Chen P.*, Xiang C., Peng J., Zhang S. Measuring cohesive energy of van der Waals heterostructures by nanoparticle intercalation method. Mechanics of Materials 2022. 166: 104243. (SCI)
2.  
3. Zheng, H., Chen, P.*, Liu, H., Zhang Y.*, and Peng, J., 2021. Wrinkling behavior of variable thickness films bonded to elastic substrates. Mechanics of Advanced Materials and Structure (SCI)
4.  
5. Han, Y., Chen, P.*, Zhu, J.*, Liu, H., and Zhang, Y., 2021. Mechanical behavior of single layer MoS2 sheets with aligned defects under uniaxial tension. Journal of Applied Physics 130, 124302. (SCI)
6.  
7. Zhu, J.*, Zhang, G., Huang, H., Wang, D., Chen, P.*, and Yang, X.*, 2021. A novel two-stage martensitic transformation induced by nanoscale concentration modulation in a TiNb-based shape memory alloy. Computational Materials Science 200, 110843.
8.  
9. Zhu, J.#, Chen, P.#, Huang, H. Zhang, G., Hao, F. and Li, K., 2021, Direct experimental evidence for the non-linear elasticity of multi-functional alloy Ti2448.  Composites Communications 24, 100672. (SCI)
10.  
11. Zheng, H., Chen, P.*, Chen Z.*, 2021. Cold atmospheric plasma induced skin wrinkle. EPL 133, 15001. (SCI)
12.  
13. Li, Y., Chen, P.*, Liu, H., Peng, J., and Luo, N., 2021. The buckling behavior of single-layer MoS2 sheets on silica substrates. Journal of Applied Physics 129, 014302. (SCI)
14.  
15. Han, Y., Chen, P.*, Zhang, C.*, Dong, J., and Liu, H., 2020. The buckling behavior of single-layer MoS2 sheets with kirigami-inspired structures under compression. Computational Materials Science, 110188. (SCI)
16.  
17. Liu, H., Zhang, T., Sun, S., Zhang, G., Tian, X., Chen, P., 2020. Microstructure and Dislocation density of AlCoCrFeNiSix High Entropy Alloy Coatings by Laser cladding. Mater. Lett., 128746. (SCI)
18.  
19. Lou L., Chen P.*, Wang Z., Zhang S., Gao F., 2020. Cohesive energy measurement of van der Waals heterostructures by the shaft loaded blister test. Extreme Mechanics Letters, 41, 100987. (SCI)
20.  
21. Chen, P.*, Li, Y., Peng, J., Gao, F., Li, Z., 2020. An inspired nanoscale system to evaluate interfacial behavior of layered structures. Computational Materials Science 182, 109793. (SCI)
22.  
23. Zhang, G., Liu, H., Tian, X., Chen, P., Yang, H., Hao, J., 2020. Microstructure and Properties of AlCoCrFeNiSi High-Entropy Alloy Coating on AISI 304 Stainless Steel by Laser Cladding. Journal of Materials Engineering and Performance 29, 278-288. (SCI)
24.  
25. Mu, R., Yang, J., Wang, Y., Wang, Z., Chen, P., Sheng, H., Suo, Z., 2020. Polymer-filled macroporous hydrogel for low friction. Extreme Mechanics Letters 38, 100742. (SCI)
26.  
27. Liu, H., Liu, J., Li, X., Chen, P., Yang, H., Hao, J., 2020. Effect of heat treatment on phase stability and wear behavior of laser clad AlCoCrFeNiTi0.8 high-entropy alloy coatings. Surface and Coatings Technology 2020, 125758. (SCI)
28.  
29. Guo, W., Chen, P.*, Liu, H., Yang, Y., Peng, G., Chen, Z., 2020. On the strength and interfacial properties of square wave joints with defects and mismatches. The Journal of Adhesion 1-23. (SCI)
30.  
31. Guo, W., Chen, P.*, Yu, L., Peng, G., Zhao, Y., Gao, F., 2020. Numerical analysis of the strength and interfacial behaviour of adhesively bonded joints with varying bondline thicknesses. International Journal of Adhesion and Adhesives 98, 102553. (SCI)
32.  
33. Chen, P., Chen, S., Liu, H., Peng, J., Gao, F., 2020. The interface behavior of multiple piezoelectric films attaching to a finite-thickness gradient substrate. Journal of Applied Mechanics–Transactions of the ASME, 87, 011003. (SCI)
34.  
35. Chen, P., Peng, J., Chen, Z., Peng, G., 2019. On the interfacial behavior of a piezoelectric actuator bonded to a homogeneous half plane with an arbitrarily varying graded coating. Engineering Fracture Mechanics, 220, 106645. (SCI)
36.  
37. Chen, P., Chen, S., Peng, J., Gao, F., Liu, H., 2019. The interface behavior of a thin film bonded imperfectly to a finite thickness gradient substrate. Engineering Fracture Mechanics, 106529. (SCI)
38.  
39. Chen, P., Guo, W., Zhao, Y., Li, E., Yang, Y., Liu, H., 2019. Numerical analysis of the strength and interfacial properties of adhesive joints with graded adherends. International Journal of Adhesion and Adhesives 90, 88-96. (SCI)
40.  
41. Chen, P., Chen, S., Guo, W., Gao, F., 2018. The interface behavior of a thin piezoelectric film bonded to a graded substrate. Mechanics of Materials 127, 26-38. (SCI)
42.  
43. Chen, P., Lv, S., Li, Y., Peng, J., Wu, C., Yang, Y., 2018. A nanoscale rolling actuator system driven by strain gradient fields. Computational Materials Science 154, 380-392. (SCI)
44.  
45. Chen, P., Peng, J., Liu, H., Gao, F., Guo, W., 2018. The electromechanical behavior of a piezoelectric actuator bonded to a graded substrate including an adhesive layer. Mechanics of Materials 123, 77-87. (SCI)
46.  
47. Chen P.J., Peng J., Yu L., Yang Y., 2017. The interfacial analysis of a film bonded to a finite thickness graded substrate. International Journal of Solids and Structures 120, 57-66. (SCI)
48.  
49. Chen P.J., Chen S.H., Peng J. Interface behavior of a thin-film bonded to a graded layer coated elastic half-plane. International Journal of Mechanical Sciences, 115–116, pp 489-500, 2016. (SCI)
50.  
51. Li, Y., Chen, P.^*, Liu, H., Peng, J., Gao, F., Luo, N., 2019. Wrinkling and failure behavior of single-layer MoS2 sheets under in-plane shear. Physical Chemistry Chemical Physics. 21, 19115-19125. (SCI)
52.  
53. Gao, F., Guo, W., Chen, P. ^*, Cai, C., Peng, G., 2019. Numerical Analysis on the Wrinkling Instability of a Stiff Film Adheres to an Elastic Substrate with a Graded Coating. International Journal of Applied Mechanics 11, 1950015. (SCI)
54.  
55. Li, Y., Chen, P. ^*, Zhang, C., Peng, J., Gao, F., Liu, H., 2019. Molecular dynamics simulation on the buckling of single-layer MoS2 sheet with defects under uniaxial compression. Computational Materials Science 162, 116-123. (SCI)
56.  
57. Peng, J., Wang, Z., Chen, P. ^*, Gao, F., Chen, Z., Yang, Y., 2019. Surface contact behavior of an arbitrarily oriented graded substrate with a spatially varying friction coefficient. International Journal of Mechanical Sciences 151, 410-423. (SCI)
58.  
59. Peng, G., Yan, Q., Hu, J., Chen, P., Chen, Z., Zhang, T., 2019. Effect of Forced Air Cooling on the Microstructures, Tensile Strength, and Hardness Distribution of Dissimilar Friction Stir Welded AA5A06-AA6061 Joints. Metals 9, 304. (SCI)
60.  
61. Chen, Z., Peng, G., Chen, P., Xia, Y., Li, G., 2019. Investigation of the tribological behavior of chromium aluminum silicon nitride coatings via both scratch sliding test and FEM simulation. AIP Advances 9, 025116. (SCI)
62.  
63. Liu, H., Liu, J., Chen, P., Yang, H., 2019. Microstructure and high temperature wear behaviour of in-situ TiC reinforced AlCoCrFeNi-based high-entropy alloy composite coatings fabricated by laser cladding. Optics & Laser Technology 118, 140-150. (SCI)
64.  
65. Liu, H., Chen, P., Yang, H., Hao, J., Tian, X., He, X., Yu, G., 2019. Processing Window and Microstructure of NiCoCrAlY Coating Deposited on Cast Iron Using Multilayer Laser Cladding. Journal of Spectroscopy 15, 9308294. (SCI)
66.  
67. Liu, H., Liu, J., Chen, P., Yang, H., Hao, J., Tian, X., 2019. Microstructure and Properties of AlCoCrFeNiTi High-Entropy Alloy Coating on AISI1045 Steel Fabricated by Laser Cladding. Journal of Materials Engineering and Performance 28, 1544-1552. (SCI)
68.  
69. Liu, H., Chen, P.-J., Hao, J.-B., Yang, H.-F., He, X.-L., Yu, G., 2018. Thermal Fatigue Behaviour of Cast Iron Induced by Pulse Laser Heating: Numerical Simulation and Experimental Studies. Lasers in Engineering 41, 111-128. (SCI)
70.  
71. Liu, J., Liu, H., Chen, P., Hao, J., 2019. Microstructural characterization and corrosion behaviour of AlCoCrFeNiTix high-entropy alloy coatings fabricated by laser cladding. Surface and Coatings Technology 361, 63-74. (SCI)
72.  
73. Yang, Y., Gao, F., Cai, C., Chen, P., 2018. A Novel Polyaxial Strength Criterion for Rock Materials Under General Stress Condition. International Journal of Applied Mechanics 10, 1850082. (SCI)
74.  
75. Chen P.J., Chen S.H., Yao, Y., Nonslipping contact between a mismatch film and a finite-thickness graded substrate. Journal of Applied Mechanics–Transactions of the ASME, 83(2), pp 021007, 2016. (SCI)
76.  
77. Chen P.J., Chen S.H., Peng J., Sliding contact between a cylindrical punch and a graded half-plane with an arbitrary gradient direction. Journal of Applied Mechanics–Transactions of the ASME, 82(4), pp 041008, 2015. (SCI)
78.  
79. Chen P.J., Chen S.H., Peng J., Frictional contact of a rigid punch on an arbitrarily oriented gradient half-plane, Acta Mechanica, 226(12): pp 4207-4221, 2015. (SCI)
80.  
81. Chen P.J., Chen S.H., Thermo-mechanical contact behavior of a finite graded layer under a sliding punch with heat generation, International Journal of Solids and Structures, 50(7-8), pp 1108-1119, 2013. (SCI)
82.  
83. Chen P.J., Chen S.H., Partial slip contact between a rigid punch with an arbitrary tip-shape and an elastic graded solid with finite thickness, Mechanics of Materials, 59, pp 24-35, 2013. (SCI)
84.  
85. Yao Y., Chen S.H., Chen P.J., The effect of a graded interphase on the mechanism of stress transfer in a fiber-reinforced composite, Mechanics of Materials, 58, pp 35-54, 2013. (SCI)
86.  
87. Chen P.J., Chen S.H., Contact behavior of a homogeneous half-space coated with a gradient layer, Acta Mechanica, 223(3), pp 563–577, 2012. (SCI)
88.  
89. Chen P.J., Chen S.H., Peng, Z.L., Thermo-contact mechanics of a rigid cylindrical punch contacting a functionally graded layer, Acta Mechanica, 223(12), pp 2647-2665, 2012. (SCI)
90.  
91. Chen P.J., Peng J., Zhao Y., Gao F., Prediction of the adhesive behavior of bio-inspired functionally graded materials against rough surfaces. AIP Advances, 4(6), pp 067143, 2014. (SCI)
92.  
93. Chen S.H., Chen P.J., Nanoadhesion of a power-law graded elastic material. Chinese Physics Letters, 27(10), pp 108102, 2010. (SCI)
94.  
95. 陈培见, 陈少华，一类功能梯度材料表面接触力学研究进展，力学进展. 2014. (EI)

专利：

专利授权情况：

1. 有效预测压电薄膜与梯度非均匀基底界面应力分布的方法，ZL201810310838.9，2019.12.06，1/5.
2. 一种考虑搭接界面形貌及搭接物梯度性质的强度预测方法，ZL201810250549.4，2020.03.10，1/6.
3. 一种判断水凝胶涂层与异质基底界面粘结性能的方法，ZL201811514216.4，2021.07.16，1/7.
4. 一种基于分子动力学的二维层状结构界面脱粘性质检测方法，ZL201910883192.8，2019.09.18，1/8.
5. A Method for explosive welding of Zirconium-based metallic glass and lightweight metal plate，2020101206，2020.07.22，4/7.
6. 一种基于神经网络的锚杆杆体损伤位置识别方法，ZL201610527924.6，2018.06.29，6/8
7. 一种哑铃状铁基块体金属玻璃试样的制备方法，ZL201610871540，2018.07.27，3/4
8. 一种自旋式复合冷却送粉头喷嘴，ZL201810531772.6，2019.06.07，2/5
9. 一种快速机械沿空留巷支架系统及使用方法，ZL201710966454.8，2019.10.29，5/7
10. 一种锆基金属玻璃与轻质金属板的爆炸焊接方法，ZL201810177478.X，2020.10.13，4/6
11. 一种基于仪器化球压入技术的残余应力检测方法，ZL201510035646.8，2017.04.27，5/5

会议报告：

1. 力电场作用下薄膜-非均匀基底系统界面力学行为的研究，江苏力学大会’2019暨江苏力学青年论坛’2019，2019.9.20-22，南京.
2.  
3. 基于应变梯度场的纳米驱动和检测的分子动力学研究，中国力学大会2019，2019年8月25日至28日，杭州.
4.  
5. 力电场作用下薄膜-非均匀基底结构的界面力学研究，中国力学大会2019，2019年8月25日至28日，杭州.
6.  
7. A nanoscale rolling system driven by strain gradient fields，中国力学学会“石油工程与力学交叉研讨会”，2019年8月2日－4日，青岛.
8.  
9. 薄膜-非均匀基底系统的界面力学行为研究，第二届江苏湖北两省固体力学学术会议，2019年4 月26-28日，武汉.
10.  
11. A nanoscale rolling actuator system driven by strain gradient fields，中国物理学会2018年秋季学术会议，2018.9.13-2018.9.16，大连理工大学
12.  
13. 薄膜/梯度材料基底系统的界面力学响应分析,中国力学大会-2017，2017.8.15，北京理工大学
14.  
15. Analysis of stress singularities in thin-films bonded to a graded substrate, YANG INTERNATIONAL SYMPOSIUM on Multiscale Material Mechanics and Multiphysics and Sustainable Applications (Sustainable Industrial Processing Summit - 2016), 2016.11.6, Sanya.
16.  
17. 失配应变载荷下薄膜/梯度材料基底的界面力学分析, 第十九届全国复合材料学术会议，2016.10.14，西安交通大学.
18.  
19. 梯度界面相层对纤维增强复合材料内部应力传输机制的影响，第十九届全国复合材料学术会议，2016.10.14，西安交通大学.
20.  
21. 任意朝向梯度材料表面的滑动接触力学特性分析，中国力学大会-2015，2015.8.15，上海交通大学.
22.  
23. 有限尺寸梯度特性材料粘滑接触性能的研究，2014全国固体力学大会，2014.10.9，成都.
24.  
25. 有限厚梯度材料表面的热摩擦接触力学特性分析，第十三届现代数学和力学学术会议暨钱伟长诞辰100周年纪念大会，2012,10.5，上海大学.
26.  
27. 有限梯度层滑动热接触的研究，北京力学会第18界学术年会，2012,1.9，北京大学，被评为青年优秀论文.
28.  
29. 有限厚梯度材料部分粘滑接触的研究，北京力学会第19界学术年会，2013,1.12，北京工业大学.

所获奖励：

江苏省科协青年科技人才托举工程

中国科学院院长奖学金

中国科学院大学“三好学生标兵”

中科院力学所郭永怀奖学金一等奖

北京力学会第18届学术年会青年优秀论文

博士研究生国家奖学金（教育部）

中国科学院优秀博士论文提名奖

江苏省力学会“学会工作先进个人”

中国矿业大学第二十届青年教师讲课比赛特等奖

江苏省工科青年教师讲课比赛一等奖

中国矿业大学教学成果奖（二等奖，2018年） (4/5)

中国矿业大学研究生教育教学成果奖（二等奖，2020年）（3/5）

全国煤炭行业教育教学成果（二等奖，2020年） （6/8）

中国矿业大学教学成果奖（二等奖，2020年） (4/5)

百佳本科教学教师(2016-2017学年度)