2006 - 2009 上海交通大學機械與動力工程學院博士
2003 - 2006 上海大學機電工程與自動化學院碩士
1999 - 2003 鄭州輕工業(yè)大學機電工程學院學士

2022 - 至今 上海交通大學機械與動力工程學院  教授、博士生導師
2015 - 2021 上海交通大學機械與動力工程學院  副研究員、博士生導師
2011 - 2014 上海交通大學機械與動力工程學院  助理研究員
2009 - 2011 上海交通大學機械與動力工程學院  師資博士后

1）人工智能驅動的制造裝備（包括數(shù)控機床裝備、機器人制造裝備等）
2）增等減材一體化制造
3）高性能表面制造

1. 中國機械工程學院金剛石及制品分會副主任委員；
2. 國際磨粒技術委員會青年委員；
3. 中國機械工程學會成組與智能集成技術分會常務委員；
4. 高端數(shù)控機床創(chuàng)新聯(lián)盟專家工作組青年專家；
5. 腐蝕與防護技術專委會委員；
6. 中國機械工程學會高級會員；
7. 《機械科學與技術》編委
8. 《Friction》青年編委
9. 《Nanotechnology and Precision Engineering》青年編委

（一）縱向課題：
2024 - 2027 國家自然科學基金面上項目，”基于脈沖電流輔助微鍛的航發(fā)整體葉盤表面強化與光整一體化制造“，負責人；
2023 - 2025 科技部重大專項課題“航發(fā)燃燒室環(huán)形薄壁件混線制造理論研究“，負責人
2021 - 2023 國家自然科學基金優(yōu)秀青年基金項目，”切削刀具表面高性能涂層“，負責人
2018 - 2020 工信部04專項（子課題）“運載火箭國產(chǎn)五軸數(shù)控機床和數(shù)控系統(tǒng)規(guī)模和示范應用”，負責人；
2018 - 2020 上海航天科技創(chuàng)新基金“基于大數(shù)據(jù)挖掘與機器學習的加工參數(shù)自主優(yōu)化技術”，負責人；
2018 - 2021 國家自然科學基金面上項目（No.51775340）“液態(tài)金屬催化石墨烯納米墻生長機理及其在CFRP裝配制孔中的磨損機制研究”，負責人；
2016 - 2019 工信部高技術船舶科研專項（子課題）（No.CDGC01-KT0505）“船用低速機典型樣機商品化關鍵技術研究”，負責人；
2017 - 2019 工信部智能制造新模式項目（子課題）"大功率船用柴油機關重件智能制造新模式應用"，負責人；
2017 - 2018 上海市工業(yè)互聯(lián)網(wǎng)創(chuàng)新發(fā)展專項（子課題）（No.2017-GYHLW-01002）“基于機加工企業(yè)互聯(lián)的網(wǎng)絡化協(xié)同平臺及創(chuàng)新應用”，負責人；
2017 - 2018 航天八院-上海交通大學聯(lián)合基金項目（No.USCAST2016-12）“航天鋁合金結構件加工表面防腐蝕與冷卻液循環(huán)利用技術研究”，負責人；
2016 - 2018 上海市浦江人才計劃（D類）（No.16PJ025）“航天飛行器典型結構緊固面微動損傷機理與防護技術研究”，負責人；
2016 - 2019  國家自然科學基金面上項目（No.51575340）“航天器關鍵連接件微動損傷機理與防護研究”，第二負責人；
2014 - 2017  國家自然科學基金面上項目（No.51375011）“納米金剛石涂層微銑鉆刀具制備新方法及應用基礎研究”，負責人；
2015 - 2016  上海市教委產(chǎn)學研項目（助推計劃類）（No. 15cxy49），負責人 ；
2012 - 2015  工信部04專項子課題(No. 2012ZX04003-031)“航空航天用復合材料系列化刀具開發(fā)”，第二負責人；
2013 - 2015  科技部863項目子課題（No.2013AA040104）“復合材料/合金疊層構件高效精密制孔工藝及裝備”，第二負責人；
2010 - 2013  國家自然科學基金（青年科學基金項目）(No. 51005154)“水潤滑條件下CVD金剛石薄膜摩擦學性能及其工具應用研究”，負責人
2012 - 2014  上海市“晨光計劃”項目（No. 12CG11）“微/納米金剛石多層復合膜 摩擦學性能及其工具應用研究”，負責人
2011 - 2014  中國博士后科學基金第四批特別資助（No.201104271）“基于多層膜結構的金剛石/類金剛石復合薄膜水潤滑摩擦學性能及應用研究”，負責人
2011 - 2013  中國博士后科學基金面上資助（第47批一等資助）（No. 20100470029）“CVD金剛石薄膜水潤滑摩擦學性能及應用研究
”，負責人
2011 - 2014  上海交通大學“新進青年教師啟動計劃“新型硅摻雜CVD金剛石薄膜水潤滑摩擦學性能及其工具應用研究”，負責人

（二）橫向課題：
2016 - 2017  企業(yè)合作項目“加工中心加工數(shù)據(jù)集成式管理研究”，負責人
2016         企業(yè)合作項目“刀具狀態(tài)在線監(jiān)測與工藝數(shù)據(jù)庫開發(fā)（一期）”，負責人
2014 - 2016  企業(yè)合作項目“碳纖維復合材料加工用金剛石涂層刀具制備技術”， 負責人；
2013         企業(yè)合作項目“超硬涂層微細鉆針的制備與開發(fā)”， 負責人；
2013 - 2015  企業(yè)合作項目“高速列車車體加工刀具失效分析及改良研究”， 負責人；
2013 - 2014  企業(yè)合作項目“金剛石涂層刀具沉積設備的研制及應用技術”， 負責人；
2010 - 2012  企業(yè)合作項目“汽車中央電器可靠性的有限元模擬仿真項目”，負責人；
2012 - 2013  企業(yè)合作項目“復雜形狀整體式CVD金剛石涂層刀具的開發(fā)及應用”，負責人；

2024年
1. Lin, Q., Chen, S., Ji, Z., Shen, B. ? Covalent graphene-diamond heterostructure coating on tool surface with enhanced lubricity and anti-wear performance. Carbon, 2024, 217, 118648.

2023年
1. Chen, S., Lin, Q., Ji, Z., Sun, Z., Shen, B. Ultrahigh mechanical robustness of vertical graphene sheets covalently bonded to diamond. Carbon, 2023, 201, 390-398.
2. Liu, Q., Chen, S., Xu, X., Jin, S., Li, Y., Wang, Y., Shen, B. Multi-objective optimization of the subsurface residual stress field of TC4 alloy in machine hammer peening. Jounal of Manufacturing Processes, 2023, 104, 98-107.
3. Liu, Q., Jin S., Shen, B. Precisely tuning the residual stress anisotropy in machine hammer peening. The International Journal of Advanced Manufacturing Technology, 2023, 127(9): 4577-89.

2022年
1. Lin, Q., Chen, S., Ji, Z., Huang, Z., Zhang, Z., Shen, B. ? High-temperature wear mechanism of diamond at the nanoscale: A reactive molecular dynamics study. Applied Surface Science, 2022, 585, 152614.
2. Lin, Q., Chen, S., Ji, Z., Huang, Z., Zhang, Z., Shen, B. Atomic-scale interfacial diffusion of diamond into titanium: Phase transition and layer dependence. Surfaces and Interfaces, 2022, 31, 101993.
3. Shen, B., Ji, Z., Lin, Q., Gong, P., Xuan, N., Chen, S., Liu, H., Huang, Z., Xiao T., Sun Z. Graphenization of diamond. Chemistry of Materials, 2022, 34, 9, 3941-3947.
4. Huang, Z., Chen, S., Lin, Q., Ji, Z., Gong, P., Sun, Z., Shen, B. The mechanisms of friction enhancements on graphene surfaces with folds: The reinforcement of atomic pinning or attraction. Tribology International, 2022, 165, 107297.
5. Huang, Z., Chen, S., Lin, Q., Shen, B. ? Improved anticorrosive and tribological performance of Ti-6Al-4V alloys via a mussel-inspired graphene/phenol-formaldehyde resin nanocomposite coating. Progress in Organic Coatings, 173, 2022, 107142.
6. Jin, S., Liu, Q., Zhu, Y., Shen, B. ? Surface smoothening and strengthening combined effect of mechanical hammer peening on inconel 718 superalloy. Materials and Manufacturing Processes, 2022, 38(10):1331-1337.
7. Chen, S., Hong, H., Shen, B. ? Substrate‐dependent enhancement of the durability of EPD graphene coating as a macroscale solid lubricant. Surface and Interface Analysis, 2022, 54(9): 978-985.

2021年
1. Lin, Q., Chen, S., Ji, Z., Huang, Z., Zhang, Z., Shen, B. ? A novel growth model for depositing ultrananocrystalline diamond films in CH4/H2 chemistry. Surface & Coatings Technology, 2021, 419, 127280.
2. Lin, Q., Chen, S., Ji, Z., Huang, Z., Zhang, Z., Shen, B. ? High-temperature wear behavior of micro- and ultrananocrystalline diamond films against titanium alloy. Surface & Coatings Technology, 2021, 422, 127537.
14. Ji, Z., Lin, Q., Huang, Z., Chen, S., Gong, P., Sun, Z., Shen, B. ? Enhanced lubricity of CVD diamond films by in-situ synthetization of top-layered graphene sheets. Carbon, 2021, 184, 680-688.
3. Ji, Z., Lin, Q., Huang, Z., Chen, S., Gong, P., Sun, Z., Shen, B. ? Strain-induced nonlinear frictional behavior of graphene nanowall films. ACS Applied Materials & Interfaces, 2021, 13, 43, 51608-51617.
4. Huang, Z., Chen, S., Lin, Q., Ji, Z., Gong, P., Sun, Z., and Shen, B. ? Microscopic mechanisms behind the high friction and failure initiation of graphene wrinkles. Langmuir, 2021, 37, 22, 6776-6782.
5. Chen, S., Shen, B. ?, Huang, Z., Ji, Z., Lin, Q., Zhang, Z., Controlled friction on graphene via substrate deformation induced atomic pinning effect. Computational Materials Science, 2021, 190, 110315.
6. Gui, Y., Liu, Q., Zhu, Y., Chen, S., Shen, B.? Performance analysis and application on Ti-6Al-4V of micro-forging system, Chinese Journal of Aeronautics, 2021, 34, 6:188-198.

2020年
1. Zhewei Huang, Qiang Lin, Zhe Ji, Sulin Chen, and Bin Shen*, The Interior Failure of Single-layer Graphene Activated by the Nanosized Asperity on the Substrate Surface，Advanced Materials Interfaces，In Press.  https://doi.org/10.1002/admi.202000281
2. Qiang Lin, Sulin Chen, Zhe Ji, Zhewei Huang, Zhinan Zhang, Bin Shen*, Deposition of mirror-like surface finish ultrananocrystalline diamond films on tungsten carbide by optimizing the substrate pretreatment, Surface and Coatings Technology, 2020. In Press. https://doi.org/10.1016/j.surfcoat.2020.125885
3. Shen, B.*, Gui, Y., Chen, B. et al. Application of spindle power signals in tool condition monitoring based on HHT algorithm. The International Journal of Advanced Manufacturing Technology, volume 106, pages 1385–1395 (2020).
4. Anbo Cao, Bin Shen*, Qiang Lin, Sulin Chen, Zhewei Huang, Zhe Ji, Zhinan Zhang, Influence of Stone-Wales defect on graphene friction: Pinning effect and wrinkle modification, Computational Materials Science, 2020, Volume 173, 109423
5. Bin Shen, Sulin Chen*, Zhewei Huang, Zhe Ji, Qiang Lin, Zhinan Zhang, Elucidating the atomic mechanism of the lubricity of graphene on the diamond substrate. Applied Surface Science, 2020, 504, 144372.
6. Qiang Lin, Sulin Chen, Bin Shen & Fanghong Sun (2020) CVD diamond coated drawing dies: a review, Materials and Manufacturing Processes, DOI: 10.1080/10426914.2020.1832689

2019年
1. Bin Shen*, Qiang Lin, Sulin Chen, Zhe Ji, Zhewei Huang, Zhinan Zhang, High-rate synthesis of ultra-nanocrystalline diamond in an argon-free hot filament chemical vapor deposition atmosphere for tribological films. Surface and Coatings Technology, 2019, 378, 124999.
2. Bin Shen?, Zhewei Huang, Zhe Ji, Qiang Lin, Sulin Chen, Danjie Cui, Zhinan Zhang, Bilayer Graphene Film Synthesized by Hot Filament Chemical Vapor Deposition as a Nanoscale Solid Lubricant, Surface and Coatings Technology, 2019, 380, 125061(1-7).
3. Bin Shen*，Qiang Lin, Sulin Chen, Zhewei Huang, Zhe Ji, Anbo Cao, and Zhinan Zhang Double-Vacancy Controlled Friction on Graphene: The Enhancement of Atomic Pinning, Langmuir, 2019, 35, 12898?12907.
4. Sulin Chen#, Bin Shen#*, Fan Zhang*，Hong Hong, and Jinshan Pan, Mussel-inspired Graphene Film with Enhanced Durability as a Macroscale Solid Lubricant, ACS Applied Materials & Interfaces, 2019, doi:10.1021/acsami.9b10404.
5. Bin Shen*, Hong Hong, Sulin Chen, Xi Chen, Zhinan Zhang, Cathodic electrophoretic deposition of magnesium nitrate modified graphene coating as a macro-scale solid lubricant. Carbon, 2019, 145: 297-310.

2018年
1. Bin SHEN*, Su-lin CHEN, Fang-hong SUN, Effect of deposition temperature on properties of boron-doped diamond films on tungsten carbide substrate. Transactions of Nonferrous Metals Society of China, 2018, 28(4): 729-738.

2017年
2. Shen, B.*, S. Chen, Y. Chen,F. Sun, Enhancement on the tribological performance of diamond films by utilizing graphene coating as a solid lubricant. Surface and Coatings Technology, 2017. 311: p. 35-45.
3. Chen, S., B. Shen*, F. Sun, The influence of normal load on the tribological performance of electrophoretic deposition prepared graphene coating on micro-crystalline diamond surface. Diamond and Related Materials, 2017. 76: p. 50-57.
4. Chen, S., B. Shen*, Y. Chen, F. Sun, Synergistic friction-reducing and anti-wear behaviors of graphene with micro- and nano-crystalline diamond films. Diamond and Related Materials, 2017. 73: p. 25-32.

2016年
1. Sulin Chen, Bin Shen*, Fanghong Sun, Zhiming Zhang, Songshou Guo, Tribological behaviors of diamond films and their applications in metal drawing production in water-lubricating condition, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2016. 230: p.656-666.1.

2015年之前
1. Bin Shen*, Bo Song, Lei Cheng, Xuelin Lei, Fanghong Sun, Optimization on the HFCVD setup for the mass-production of diamond-coated micro-tools based on the FVM temperature simulation[J], Surface & Coatings Technology, 2014, 253: 123-131.
2. Bin Shen*, Sulin Chen, Fanghong Sun, Investigation on the long-duration tribological performance of bilayered diamond/diamond-like carbon films[J]. Proceedings of the Institution of Mechanical Engineers, Part J: Engineering Tribology, 2014, 228:628-641.
3. Bin Shen*; Lei Cheng; Fanghong Sun, The effect of the gas outlet on the gas velocity field in mass-production of HFCVD diamond-coated drills[J]. Surface Review and Letters, 2014, 21(4): 1450051 (15 pages).
4. Bin Shen*, Sulin Chen, Lei Cheng, Fanghong Sun, The effect of the gas inlet on the fluid field during fabricating HFCVD diamond-coated cutting tools[J]. Surface Review and Letters, 2014, 21(5): 1450068 (15 pages).
5. Bin Shen*, Sulin Chen, Lei Cheng, Fanghong Sun, The effect of the double-deck filament setup on enhancing the uniformity of temperature field on long-flute cutting tools[J], Surface Review and Letters, 2014, 21(6): 1450078 (15 pages).
6. X. Lei, B. Shen*, S. Chen, L. Wang and F. Sun, Tribological behavior between micro-and nano-crystalline diamond films under dry sliding and water lubrication, Tribology International, 2014，69： 118-127.
7. X. Lei, B. Shen*, L. Cheng, F. Sun and M. Chen, Influence of pretreatment and deposition parameters on the properties and cutting performance of NCD coated PCB micro drills, International Journal of Refractory Metals and Hard Materials, 2014，43： 30-41.
8. Naichao Chen, Bin Shen, Guodong Yang, Fanghong Sun，Tribological and cutting behavior of silicon nitride tools coated with monolayer- and multilayer-microcrystalline HFCVD diamond films, Applied Surface Science,2013, 265: 850– 859.
9. Chen Sulin, Shen Bin, Zhang Jianguo, Wang Liang, Sun Fanghong. Evaluation on the residual stresses of silicon-doped CVD diamond films using X-ray diffraction and Raman spectroscopy. Transactions of Nonferrous Metals Society of China. 2012，22： 3021?3026.
10. Shen Bin, Sun Fanghong, Zhang Zhiming, Shen Hesheng, Guo Songsou. Application of Ultra-smooth Composite Diamond Film coated WC-Co Drawing Dies in Water-lubricating Conditions. Transactions of Nonferrous Metals Society of China. 2013，23： 161?169.
11. Bin Shen, Fanghong Sun, Deposition and friction properties of ultra-smooth composite diamond films on Co-cemented tungsten carbide substrates, Diamond and Related Materials, Vol.18(2-3), 238-243 (2009).
12. Bin Shen, Fanghong Sun, Molecular Dynamics Investigation on the Atomic-scale Indentation and Friction Behaviors between Diamond Tips and Copper Substrate, Diamond and Related Materials, Vol.19(7-9), 723-728 (2010).
13. Bin Shen, Fanghong Sun, Molecular dynamics investigation on the atomic-scale friction behaviors between copper(001) and diamond(111) surfaces, Applied Surface Science, Vol.255(17), 7663-7668(2009).
14. Bin Shen, Fanghong Sun, Hongguo Xue, Ming Chen and Zhiming Zhang, Study on fabrication and cutting performance of high quality diamond coated PCB milling tools with complicated geometries, Surface Engineering, Vol.25(1), 70-76(7) (2009).
15. Bin Shen, Fanghong Sun, Friction Behavior of HFCVD diamond films on WC-Co Substrates under Ambient Air and Water Lubricating Conditions, Chinese Journal of Mechanical Engineering, Vol.22(5), 665-671(2009).
16. Bin Shen, Fanghong Sun, Effect of Surface Morphology on the frictional behavior of HF-CVD diamond films, Proceedings of the Institution of Mechanical Engineers, Part J, Journal of Engineering Tribology, Vol.223(7), 1049-1058 (2009).
17. Bin Shen, Fanghong Sun and Zhiming Zhang, Experimental and Molecular Dynamics Investigation on the Tribological Properties of Nanocrystalline Diamond Films, Journal of Nanoscience and Nanotechnology, Vol. 9(2), 788-792 (2009).
18. Bin Shen, Fanghong Sun, Molecular Dynamics Investigations on the Atomic-scale Frictional Behavior of Diamond Films, Journal of Computational and Theoretical Nanoscience, Vol.5(8), 1556-1559 (2008).
19. Dongcan Zhang, Bin Shen, Fanghong Sun, Study on tribological behavior and cutting performance of CVD diamond and DLC films on Co-cemented tungsten carbide substrates, Applied Surface Science, Vol.256(8), 2479-2489(2010).
20. T. Zhang, J.G. Zhang, B. Shen and F.H. Sun, Simulation of temperature and gas density field distribution in diamond films growth on silicon wafer by hot filament CVD, Journal of Crystal Growth, Vol.343(1), 55-61(2012).
21. Fanghong Sun, Yuping Ma, Bin Shen, Zhiming Zhang and Ming Chen, Fabrication and application of nano-microcrystalline composite diamond films on the interior-hole surfaces of Co cemented tungsten carbide substrates, Diamond and Related Materials, Vol.18(2-3), 276-282 (2009).
22. 沈彬，孫方宏，張志明，CVD金剛石薄膜在水潤滑條件下的摩擦磨損性能研究，摩擦學學報，Vol.28(1), 112-117 (2008).
23. 沈彬，孫方宏，薛宏國，陳明，張志明，高性能復雜形狀金剛石薄膜涂層刀具的制備與切削性能研究，中國機械工程，Vol.19(19), 2287-2291 (2008).
24. 沈彬，孫方宏，張志明，沈荷生，郭松壽，CVD金剛石薄膜涂層整體式刀具的制備與應用，金剛石與磨料磨具工程， Vol.30(1), 1-5(2011).

1、刀具表面摻硼金剛石復合涂層制備裝置（ZL 2009 1 0311897.9）,第一發(fā)明人；
2、復雜形狀CVD金剛石/類金剛石復合涂層刀具制備方法（ZL 2012 1 0124337.4），第一發(fā)明人；
3、基于水潤滑拉拔的多道次金屬拉拔裝置（ZL 2013 1 0228889.4），第一發(fā)明人；