Faculty

Yishi SU

Title:Assistant Professor
Office:Room 320,Materials Building D
Tel:+86-21-34202749

Introduction

Dr. Su Yishi, Ph.D. at University of Technology of Troyes (France), assistant professor/master tutor of School of Materials Science and Engineering, Shanghai Jiao Tong University. He is currently members of State Key Laboratory of Metal Matrix Composites, Materials Genome Initiative Center of SJTU. He has published 70 peer-reviewed academic journal articles such as Sci China Mater, Comp Mater Sci, Mater Sci Eng A and Mater Charact, etc, while become the peer-review experts of 20 academic journals such as Compos Part B, Mater Design, Eng Fract Mech and J Mater Sci Technol, etc. A built research platform concerns the material characteristics, the structural reconstructing, the interfacial behavior and the properties prediction of metal matrix composites; A material database of aluminum matrix composites was created and machine learning is expected to develop new composite materials.

Biographical Information

2017-present   Master tutor, School of Materials Science and Engineering, Shanghai Jiao Tong University

2014-present   Assistant professor, School of Materials Science and Engineering, Shanghai Jiao Tong University

2012-2014      Postdoc, School of Materials Science and Engineering, Shanghai Jiao Tong University

2008-2011      Ph.D. in Mechanical Systems and Materials, University of Technology of Troyes, France

2006-2008      M.S. in Solid Mechanics, Tianjin University, China

2002-2006      B.S. in Engineering Mechanics, Tianjin University, China

Research Interests

l  Integration of structural and functional aluminum matrix composites

l  Composite configuration and strengthening-toughening mechanisms

l  Multi-scale modeling from atomic-scale to finite element analysis

l  Machine learning in material genome initiative database

Selected Publications

[1]     CH Qiu, YS Su*, JY Yang, BY Chen, QB Ouyang, D Zhang*. Structural modelling and mechanical behaviors of graphene/carbon nanotubes reinforced metal matrix composites via atomic-scale simulations: a review, Composites Part C: Open Access, 2021, 4: 100120.

[2]     CN Zhu, YS Su*, XS Wang, HC Sun, QB Ouyang*, D Zhang. Process optimization, microstructure characterization and thermal properties of mesophase pitch-based carbon fiber reinforced aluminum matrix composites fabricated by vacuum hot pressing, Composites Part B, 2021, 108746.

[3]     CY Wang, YS Su*, QB Ouyang*, D Zhang. Enhanced mechanical behavior and fabrication of graphite flakes covered by aligned graphene nanoplatelets reinforced 2A12 aluminum composites, Vacuum, 2021, 110150.

[4]     G Wang, H Ouyang, YS Su, Q Guo, DB Xiong, QD Zhuang, ZM Yue, Z Li*, D Zhang*. Heterostructured bulk aluminum with controllable gradient structure: fabrication strategy and deformation mechanisms, Scripta Materialia, 2021, 196: 113762.

[5]     CH Qiu, YS Su*, BY Chen, JY Yang, ZQ Li, QB Ouyang, Q Guo, DB Xiong, D Zhang*. First-principles investigation of interfacial stability, mechanical behavior and failure mechanism of β-SiC(111)/Al(111) interfaces, Computational Materials Science, 2020, 175: 109608.

[6]     Q Qiao, YS Su*, H Cao, D Zhang, QB Ouyang*. Effect of post-weld heat treatment on double-sided friction stir welded joint of 120 mm ultra-thick SiCp/Al composite plates, Materials Characterization, 2020, 169: 110668.

[7]     CN Zhu, YS Su*, D Zhang, QB Ouyang*. Effect of Al2O3 coating thickness on microstructural characterization and mechanical properties of continuous carbon fiber reinforced aluminum matrix composites, Materials Science and Engineering A, 2020, 793: 139839.

[8]     H Cao, YS Su*, D Cui, D Zhang, QB Ouyang*. Microstructural characterization, mechanical properties and thermal expansion of antiperovskite manganese nitride Mn3.1Zn0.5Sn0.4N fabricated by combing vacuum sintering and spark-plasma sintering, Materials Characterization, 2020, 160: 110100.

[9]       俞洋,苏益士*,Berthelot Yann,欧阳求保,郭强,张荻*;颗粒增强金属基复合材料的结构建模与力学模拟研究进展,中国材料进展,2020, 39 (3): 214-225.

[10]   HJ Cao, ZQ Tan*, GL Fan, Q Guo, YS Su, ZQ Li, DB Xiong*. Wide and fine alignment control and interface modification for high-performance thermally conductive graphite/copper composite, Composites Part B, 2020, 191: 107965.

[11]   CY Wang, YS Su*, QB Ouyang*, D Zhang. Enhanced through- plane thermal conductivity and mechanical properties of vertically aligned graphene nanoplatelet @ graphite flakes reinforced aluminum composites, Diamond & Related Materials, 2020, 108: 107929.

[12]   Q Qiao, YS Su*, ZQ Li, QF Cui, H Yu, QB Ouyang*, D Zhang. Effects of overlapping region on double-sided friction stir welded joint of 120 mm ultra-thick SiCp/Al composite plates, Materials Science and Engineering A, 2020, 782: 139238.

[13]   Q Qiao, YS Su*, QB Ouyang*, D Zhang, XC Song, LJ Guo. Microstructural characterization and mechanical properties of 120-mm ultra-thick SiCp/Al composite plates joined by double-sided friction stir welding, Metallurgical and Materials Transactions A, 2019, 50a: 3589-3602.

[14]   YS Su, Z Li, Y Yu, L Zhao, ZQ Li, Q Guo, DB Xiong, D Zhang*. Composite structural modeling and tensile mechanical behavior of graphene reinforced metal matrix composites, Science China Materials, 2018, 61(1): 112-124.

[15]   SS Li, YS Su*, HL Jin, Y Huang, QB Ouyang*, D Zhang. Effects of carbon nanotube content on morphology of SiCp(CNT) hybrid reinforcement and tensile mechanical properties of SiCp(CNT)/Al composites, Journal of Materials Research, 2017, 32: 1239-1247.

[16] Y Huang, YS Su, XW Guo, Q Guo, QB Ouyang*, GD Zhang, D Zhang. Fabrication and thermal conductivity of copper coated graphite film/aluminum composites for effective thermal management, Journal of Alloys and Compounds, 2017, 711: 22-30

[17] YS Su, ZQ Li, XL Gong, QB Ouyang, Q Guo, CP Guo, J Zhang, D Zhang*. Structural modeling and mechanical behavior of Metal-Porous-Polymer- Composites (MPPCs) with different polymer volume fractions, Composite Structures, 2016, 153: 673-681.

[18] YS Su*, D Zhang*, XL Gong, M Shen. Mechanical behavior in bending deformation of thermoplastic composite laminates with different stacking sequences, Journal of Composite Materials, 2016, 50: 1037-1048.

[19] SS Li, YS Su, XH Zhu, HL Jin, QB Ouyang*, D Zhang*. Enhanced mechanical behavior and fabrication of silicon carbide particles covered by in-situ carbon nanotube reinforced 6061 aluminum matrix composites, Materials & Design, 2016, 107: 130-138

[20] SS Li, YS Su, QB Ouyang*, D Zhang. In-situ carbon nanotube-covered silicon carbide particle reinforced aluminum matrix composites fabricated by powder metallurgy, Materials letter, 2016, 167: 118-121.

[21] Y Huang, YS Su, SS Li, QB Ouyang*, GD Zhang, LT Zhang, D Zhang. Fabrication of graphite film/aluminum composites by vacuum hot pressing: Process optimization and thermal conductivity, Composites Part B, 2016, 107: 43-50.

[22] M. Chen, J.J. Gu*, C. Sun, Y.X. Zhao, R.X. Zhang, X.Y. You, Q.L. Liu, W. Zhang, Y.S. Su, H.L. Su, D. Zhang*. Light-driven overall water splitting enabled by a photo-dember effect realized on 3D plasmonic structures. ACS Nano, 2016, 10: 6693-6701.

[23] D.M. Kang, Q.L. Liu*, J.J. Gu, Y.S. Su, W. Zhang, D. Zhang*. “Egg-Box” assisted fabrication of porous carbon with small mesopores for high rate electric double layer capacitors. ACS Nano, 2015, 9: 11225-11233.

[24]   Z Li, Q Guo*, ZQ Li, GL Fan, DB Xiong, YS Su, J Zhang, D Zhang*. Enhanced mechanical properties of graphene (reduced graphene oxide)/aluminum composites with a bioinspired nanolaminated structure, Nano Letters, 2015, 15: 8077-8033.

[25] Z Li, GL Fan, Q Guo*, ZQ Li, YS Su, D Zhang*. Synergistic strengthening effect of graphene-carbon nanotube hybrid structure in aluminum matrix composites, Carbon, 2015, 95: 419-427.

[26] D.X. Liu, J.J. Gu*, Q.L. Liu, Y.W. Tan, Z. Li, W. Zhang, Y.S. Su, W.X. Li, A.J. Cui, C.Z. Gu, D. Zhang*. Metal-Organic Frameworks reactivate deceased diatoms to be efficient CO2 absorbents. Advanced Materials, 2014, 26: 1229-1234.

[27]   YS Su, ZQ Li, L Jiang, XL Gong, GL Fan, D Zhang*. Computational structural modeling and mechanical behavior of carbon nanotube reinforced aluminum matrix composites, Materials Science and Engineering A, 2014, 614: 273-283.

[28]   YS Su, QB Ouyang, WL Zhang, ZQ Li, Q Guo, GL Fan, D Zhang*. Composite structure modeling and mechanical behavior of particle reinforced metal matrix composites, Materials Science and Engineering A, 2014, 597: 359-369.

[29]   YS Su*, D Zhang, ZQ Li, GL Fan, Q Guo, DB Xiong. Interfacial morphology on mechanical behavior of particle reinforced metal matrix composites, PRICM: 8 Pacific Rim International Congress on Advanced Materials and Processing (Wiley Online Library), 2013, 1(1): 1417-1424.

Research Projects

l  “Elementary constructing, strengthening mechanism and materials genome of silicon carbide particles covered by in-situ carbon nanotube hybrid reinforced aluminum matrix composites”, Natural Science Foundation of China, 2020

l  “Integrated study of biomimetic fabrication and interfacial behavior of graphene reinforced aluminum matrix composites”, Natural Science Foundation of China, 2016

l  “Mechanical modeling of structure-properties relationship of advanced metal matrix composites”, National Program on Key Basic Research Project, 2012

l  Guidance of 5 graduated master students (4 from France), more than 10 undergraduate students

Honors & Awards

l  Excellent Instructor of College Student Innovations, Shanghai Jiao Tong University, 2020

l  Member of National Materials and Devices Networks, 2018

l  Member of Organizing Committee of Academic Exchange Information Center, 2018

l  Member of Chinese Society for Composite Materials, 2017

l  Member of Japan Institute of Metals and Materials, 2014