
姓 名:刁 东风(工学博士)
职 称:教授,博士生导师
电子信箱: dfdiao@szu.edu.cn
电 话 :029-82669151/0755-26902415
工作单位:教育部现代设计及转子轴承系统重点实验室(西安交通大学)
研究领域:纳米功能表面设计-制造-检测-应用;纳米表面分子量子力学解析-纳米摩擦学;纳米表面与光-机-磁-电-生物-能源应用
国际杂志编委:Lubrication Science, Friction
1.研究方向(纳米表面科学与工程:Nanosurface Science and Engineering)
(1)ECR纳米表面制造原理及装备化研究(ECR-Nano-Technology)
ECR超高真空气固两相源纳米机能加工系统的设计与制造;ECR纳米碳基薄膜表面纳米结构与形貌加工;ECR纳米碳膜在157-365nm紫外光-电子-离子照射下电磁光特性变化及超高温度状态下热稳定性研究;ECR纳米表面的纳米精度生物传感与纳米表面新机能研究;电子/离子制造科学与技术研究。
(2)纳米表面摩擦学测试技术及仪器化研究(Pin-on-Disk-Nano-Tribometer )
高精度摩擦磨损表面形貌多功能试验仪器的设计与制造;硬盘摩擦退磁机理分析与退磁临界的精密 测试;超低摩擦机理与测量技术;接触式定位界面的摩擦特性与定位精度的关系分析与测试技术;接触界面静动摩擦系数差引发的微纳位移检测技术研究;电容传感与半导体传感器的设计制造。
(3)摩擦学中的纳米接触力学研究(Contact Mechanics in Tribology)
微纳薄膜结构的接触热机械应力有限元分子动力学(FEM-MD)解析方法开发;纳米粒子在相对运动
界面的接触力学行为解析;薄膜表面摩擦磨损过程中的接触力学特征及应力分布解析;超低摩擦磨
损的接触机理研究;球形纳米粒子气膜的润滑原理研究。
(4)环境摩擦学研究(Tribology in Desigined Envirnoment)
微纳粒子与沙尘等环境形成装置的设计与制作;高速高精度气体滚珠及气固两相流轴承试验台的
设计制造;各种微粒子环境下的信息机械系统的摩擦磨损精密测量技术;微纳粒子环境下磁性体
摩擦磨损退磁特征研究;周期变化温度条件下精密滚珠轴承系统的密封特性测量技术;极限环境
下超低摩擦学机械系统设计技术。
2.工作简历
工学博士,教授,博士生导师。1988年4月-1992年12月留学于日本东北大学工学部1992年12月取得博士学位。1993年1月-1994年3月在日本东北大学做助教工作,1995年1月-2002年3月在日本静冈大学工作任副教授。2002年4月起任西安交通大学特聘教授,2003年11月-2013年10月任教育部现代设计及转子轴承重点实验室主任,2012年12月起任深圳大学纳米表面科学与工程研究所所长。在日本工作期间,1996年2月至1996年8月作评为日本文部省杰出青年并获JSPS的资助赴美考察美国电子制造装备及微系统中的纳米摩擦学及表面工程研究状况;同时以访问教授身份在美国俄亥俄州立大学Prof.Bhushan纳米摩擦学实验室工作,主持解决了被称为纳米难题的纳米薄膜韧性测量问题;1997年4-5月被邀请访问路易斯安娜州立大学,进行了纳米粒子掺杂表面的设计理论研究;1999年7月至2001年3月兼任日本航空宇宙技术研究所研究员,主持研究宇宙环境中极限条件下精密宇宙仪器表面与接触界面的摩擦学性能设计测试问题。在西安交大工作期间,2003年9月至2004年3月以访问教授的身份在大阪大学接合技术研究所等离子体实验室工作研究等离子体材料制备技术;2005年10月-11月获王宽诚基金奖励,被邀请访问香港城市大学材料物理系讲学;2006年4-5月短期访问美国加州大学伯克利校机械工程Prof.Komvouplas纳米表面科学与工程及摩擦学研究室;2006年7-8月访问日本东北大学加藤康司教授摩擦学研究室;2010年10-11月JSPS邀请访问日本东京大学等离子体表面材料吉田豐信研究室。近5年来,建设成具有自主知识产权的微纳粒子环境实验室;自制多功能复合式电子回旋共振等离子体(Multi-Functional ECR-Plasma)纳米表面机能加工系统;自制超精密摩擦学行为测量系统等。 签署国际合作项目数十项,并同日立公司机械研究所共建“交大-日立联合实验室”。其自传被收录在世界人物录“Who’s who”第18版。现任SCI国际杂志Lub. Science编委与Friction编委。ASME,JSME,CSME,日本摩擦学学会,日本材料学会等高级会员。至今已发表论文200余篇(其中包括在美国,日本,韩国等地举办的国际会议上特邀报告15篇,近3年发表SCI检索国际杂志论文30)。最佳单篇被SCI论文引134次。
3.SCI-Publications
= 2015 = *corresponding author
(5) Chao Wang Xi Zhang and Dongfeng Diao*, Nanosized graphene crystallite induced strong magnetism in pure ccarbon film, Nanoscale(IF6.739-JCR1), accepted.
(4) Wenlei Zhang, Dongfeng Diao*, Xue Fan and Lei Yang,The three-layered sandiwich carbon film prepared by ECR ion/electron/ion irradiation technology.
SCT-submitted.
(3) Qi Zhang, Dongfeng Diao*, Momoji Kubo, Nanoscratching of multi-graphene layers by molecular dynamics simulations, submitted for publication.(Tribology International under revision)
(2) T. Kang, S.Y. Huang, J.J. Huang, Q.H. Li, Dongfeng Diao* and Y.Z.Duan, The effect of diamond-like carbon films on fretting wear behavior of orthodontic archwire-bracket contacts, Journal of Nanoscience and Nanotechnology, 15 (2015) 4641-4647.
(1) Zhiru Yang, Dongfeng Diao*, Hongyan Fan, Xue Fan, Experimenal study on Load Capacity of Nanoparticles-laden Gas Film in Thrust Bearing,
Ind. Lubr. Tribol., accepted.
= 2014 = *corresponding author
(6) Xi Zhang, Chao Wang, Chang Q Sun and Dongfeng Diao*, Magnetism induced by excess electrons trapped at diamagnetic edge-quantum well in
multi-layer graphene, Appl. Phys. Lett. 105 (2014) 042402.(IF3.844-JCR2).
(5) Cheng Chen, Dongfeng Diao*, Xue Fan, Lei Yang and Chao Wang, Frictional behavior of carbon film embedded with controlling-sized graphene nanocrystallites, Tribology Letters, 55(2014)429-435.
(4) Meiling Guo, Dongfeng Diao*, Xue Fan, Lei Yang, Liwei Yu, Scratch Behavior of Re-structured Carbon Coating by Oxygen Plasma Etching Technology for Magnetic Disk Application, Surface and Coatings Technology, 251 (2014) 128–134.
(3) Lei Yang and Dongfeng Diao*,Contact Stress Induced Micromagnetic Behavior in Magnetic Recording Disk, Tribology Letters, 54 (2014) 287-295. (IF1.743-JCR2)
(2) Hongyan Fan, Dongfeng Diao*, Zhiru Yang and Xue Fan, The Lubrication Performance of Nanoparticles-Laden Gas Film in Thrust Bearing under Non-Contact and Contact Conditions, ASME,Trans., Journal of Tribology, 136 (2014) 034505. (IF1.213-JCR3)
(1) Zhiru Yang, Dongfeng Diao*, Xue Fan and Hongyan Fan, Nanoparticles-Laden Gas Film in Thrust Bearing, ASME,Trans., Journal of Tribology, 136 (2014) 043501. (IF1.213-JCR3)
=2013 =
(10) Qi Zhang and Dongfeng Diao*, Dangling bonds Induced Cross-Linking Structure in Nanoscrached Graphene Layers, Surface &Coatings Technology,
237 (2013) 230-233. (IF1.867-JCR2)
(9) S.Y.Huang, J.J.Huang, Dongfeng Diao* and Y.Z.Duan, Reduction of fluoride-induced corrosion and improvement of frictional properties by coating NiTi archwires with diamond-like carbon films, J Mater Sci: Mater Med 24 (2013) 2287–2292. (IF2.316-JCR2).
(8) Cheng Chen and Dongfeng Diao*, Tribological Thermostability of Carbon Film with Vertically Aligned Grapheen Sheets, Tribology Letters,
50 (2013)305-311. (IF1.7-JCR2) .
(7) Xue Fan, Kenji Nose, Dongfeng Diao* and Toyonobu Yoshida, Nanoindentation Behavior of Amorphous Carbon Films Containing Nanocrystalline
Graphite and Diamond Prepared by Radio Frequency Sputtering, Applied Surface Science, 273 (2013) 816-823.(IF:2.112-JCR2)
(6) Zhiru Yang, Dongfeng Diao* and Lei Yang, Numerical Analysis on Nanoparticles-Laden Gas Film Thrust Bearing, CSME, Trans., J. Mech. Engineering, 26 (2013) 675-680.
(5) Dongfeng Diao*, Chao Wang, Xue Fan, Frictional Behavior of Nanostructured Carbon Films, Friction, 1(2013)63-71.
(4) Tianxiao Cai, Pengyu Zhang and Dongfeng Diao*, Evolution of Maximum Contact Stresses in Amorphous Carbon Coated Silicon during Sliding
Wear against Si3N4 Ball, ASME,Trans., Journal of Tribology, 135 (2013) 021401-10. (IF:1.213-JCR3)
(3) Qi Zhang and Dongfeng Diao*, Potential of Graphene Layer Controlling NanoWear during C60 Intrusion by Molecular Dynamics Simulation,
Wear, 306 (2013)248-453.(IF: 1.262-JCR2)
(2) Chao Wang and Dongfeng Diao*, Magnetic Behavior of Graphen Sheets Embedded Carbon Film Induced by Graphen Nano Crystallite,
Appl. Phys. Lett. 102 (2013) 052402 .(IF3.844-JCR2)
(1) Dongfeng Diao and Koji Kato, Wear and Wear Maps of Hard Coatings, Tribology of Polymeric Nanocomposites: Friction and Wear
of Bulk Materials and Coatings (2nd Edition), Elsevier B.V., 2013, Page 387-403.
= 2012 =
(9) Chao Wang, Dongfeng Diao*, Xue Fan, and Cheng Chen, Graphene Sheets Embedded Carbon Film Prepared by Electron Irradiation
in Electron Cyclotron Resonance Plasma, Applied Physics Letters, 100(2012) 231909.(IF3.844-JCR2)(8) Lei Yang, Dongfeng Diao* and Wenjing Zhan, Data Loss and Demagnetization of Perpendicular Magnetic Recording Disk under Sliding,
Tribology Letters, 46(2012)329-335.
(7) Pengyu Zhang, Dongfeng Diao*, Zhanjiang Wang, Critical Maximum Contact Pressure for Yielding in Hard Coating Under Sliding Contact,
Rare Metal Materials and Engineering, 41(2012)239-242.
(6) Lei Yang, Ke Mu, Wenjing Zhan, Dongfeng Diao*, Effect of Heat Source Sliding Contact on the CoPtCrbased Magnetic Recording Disk,
Rare Metal Materials and Engineering, 41(2012)128-131.
(5) Qi Zhang, Dongfeng Diao*, Pei Li, Intrusion Simulation of a C60 Ball into Sliding Contact Space with Graphene Layered Surfaces,
Rare Metal Materials and Engineering, 41(2012)132-135.
(4) Xue Fan, Chao Wang, Lei Yang, Dongfeng Diao*,Co Filled Porous Anodic Alumina Film Fabricated on ECRAl Film with Silicon Substrate,
Rare Metal Materials and Engineering, 41(2012)136-139.
(3) P. Y. Zhang, Dongfeng Diao* and Z. J. Wang, Three Dimensional Local Yield Maps of Hard Coating Under Sliding Contact, ASME,Trans., Journal of Tribology , 134(2012) 021301.
(2) Pei Li and Dongfeng Diao*, Molecular dynamics simulation of intrusion of a C60 molecule ball into sliding contact space,
Lubrication Science, 24-1(2012)1-10.
(1) T.Tokoroyama, M. Kamiya, N. Umehara, C. Wang and Dongfeng Diao*, Influence of UV irradiation for low frictional performance of CNx coatings,
Lubrication Science, 24-3(2012)129-139.
== Highly SCI-Scitation papers since 1994==
(1) X.Li, Dongfeng Diao and B. Bhushan, Fracture Mechanisms of Thin Amorphous Carbon Films in Nanoindentation,
Acta Materialia, Vol.45, No.11, pp. 4453-4461, 1997. (134 Citations)(IF3.790-JCR1)
(2) Dongfeng Diao, K.Kato and K.Hokkirigawa, Fracture Mechanisms of Ceramic Coatings in Indentation,
ASME, Trans., Journal of Tribology, Vol.116, No.4, pp.860-869,1994. (55 Citations)
(3) Dongfeng Diao, K.Kato and K.Hayashi, The Maximum Tensile Stress on a Hard Coating under Sliding Friction,
Tribology International, Vol.27, No.4, pp.267-272, 1994. (36 Citations)
(4) Dongfeng Diao and K.Kato, Interface Yield Map of a hard Coating under Sliding Contact
Thin Solid Films, Vol.245, No.1-2, pp.115-121, 1994.(27Citations)
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