王启民教授
地址
• 通信办公地点:广东工业大学实验三号馆211
• 地址:广州大学城外环西路100号
• 邮政编码:510006
• Tel:+86 13802729261
• E-mail: qmwang@gdut.edu.cn
1.教育与研究经历
教育经历
• 2001/09-2007/01,中国科学院金属研究所,材料表面工程研究部,工学博士(导师闻立时院士,已故);
• 1994/09-1998/07,中国地质大学(北京),材料科学与工程系,工学学士
研究工作经历
• 2012/01-现在,广东工业大学,机电工程学院,教授;
• 2010/03-2012/03,韩国釜山大学,NCRC国家研究中心,研究教授;
• 2008/06-2010/01,德国勃兰登堡工业大学,Chair of Physical Metallurgy and Materials Technology,洪堡学者;
• 2007/05-2008/05,韩国釜山大学,National Core Research Center for Hybrid Materials Solution (NCRC)国家研究中心,博士后;
• 1998/07-2010/12,中国科学院金属研究所,材料表面工程研究部,研究实习员/助理研究员。
2.研究方向
硬质涂层和高温防护涂层;合金、氮化物/氧化物涂层的制备、微观结构与性能研究;摩擦磨损、高温氧化腐蚀;高速切削刀具涂层;模具涂层;发动机叶片涂层等。
3.获奖和入选人才计划、兼职
• 国家自然科学基金优秀青年科学基金;
• 广东省高校“珠江学者”特聘教授;
• 德国洪堡学者;
• 韩国Global Frontier R&D Center for Future Materials国家研究中心国际委员会委员;
• 《Acta Metallurgica Sinica (English Letters)》编委;
• 中国机械学会表面工程分会青年工作委员会副主任委员;
• 广东省真空产业技术创新联盟专家委员会副主任委员
4.主持主要科研项目
• 国家自然科学基金优秀青年科学基金,高速加工用PVD涂层刀具,2016/01-2018/12,150万元,在研,主持;
• 国家自然科学基金面上项目,51275095,含氧量对CrAlSiN纳米复合涂层刀具组织结构与性能的影响机制,2013/01-2016/12,80万元,结题,主持;
• 广东省高等学校高层次人才项目,面向难加工材料高速高效加工的PVD涂层刀具研究,2013/09-2016/08,120万元,已结题,主持;
• 广东省基金重点科学基金,AlCrN基多元多层纳米复合涂层刀具及其切削性能研究,30万元,2015/10-2017/10,结题,主持;
• 广东省科技计划项目,复合高功率脉冲溅射技术制备纳米刀具涂层关键技术研究, 50万元, 2016/1-2017/12,在研,主持;
• 广东省高等学校引进人才项目,400120028,面向高速加工的纳米复合涂层研究,2012/01- 2015/12,80万元,结题,主持;
• 国家自然科学基金青年项目,50701046,氧化铝扩散阻挡层对元素互扩散互材料体系力学性能的影响,2008.1-2010.12,24万元,结题,主持.
5.主要SCI论文
1) Teng Fei Zhang, Zhi Xin Wan, Ji Cheng Ding, Shihong Zhang, Qi Min Wang, Kwang Ho Kim. Microstructure and high-temperature tribological properties of Si-doped hydrogenated diamond-like carbon films. Applied Surface Science, 2018; 435: 963–973;
2) Jicheng Ding, Tengfei Zhang, Haijuan Mei, Je Moon Yun, Seong Hee Jeong, Qimin Wang* and Kwang Ho Kim*. Effects of negative bias voltage and ratio of nitrogen and argon on the structure and properties of NbN coatings deposited by HiPIMS deposition system. Coatings, 2018; 8: 10(1-12);
3) Wei Dai, Se-Hun Kwon, Qimin Wang*, Jingmao Liu. Influence of frequency and C2H2 flow on growth properties of diamond-like carbon coatings with AlCrSi co-doping deposited using a reactive high power impulse magnetron sputtering. Thin Solid Films, 2018; 647: 26–32.
4) Ji Cheng Ding, Teng Fei Zhang, Qi Min Wang, Chang Weon Song,Tie-Gang Wang, Kwang-Ho Kim. Microstructure and mechanical properties of the CrMoSiN nanocomposite coatings prepared by a hybrid system of AIP and HiPIMS technologies. Journal of Alloys and Compounds, 2018; 740: 774-783.
5) Ji Cheng Ding, Teng Fei Zhang, Rajaram S. Mane, Kwang-Ho Kim, Myung Chang Kang, Chang Wei Zou, Qi Min Wang*. Low-temperature deposition of nanocrystalline Al2O3 films by ion source-assisted magnetron sputtering. Vacuum. Vacuum, 2018;149: 284-290.
6) Zhengtao Wu, Xing Zhong, Cihai Liu, Zhoucheng Wang, Wei Dai and Qimin Wang*. Plastic Deformation Induced by Nanoindentation Test Applied on ZrN/Si3N4 Multilayer Coatings. Coatings, 2018; 8(1): 11(1-9);
7) Bai-Jun Xiao, Yi Chen, Wei Dai, Kwong-Yu Kwork, Teng-Fei Zhang, Qi-Min Wang*, Cheng-Yong Wang, Kwang Ho Kim, Microstructure, mechanical properties and cutting performance of AlTiN coatings prepared via arc ion plating using the arc splitting technique, Surface & Coatings Technology, 2017; 311: 98-103;
8) Baijun Xiao, Haixu Li, Haijuan Mei, Wei Dai, Fei Zuo, Zhengtao Wu, Qimin Wang*,A study of oxidation behavior of AlTiN-and AlCrN-based multilayer coatings, Surface & Coatings Technology, 2018; 333: 229-237;
9) Jun Zheng , Hui Zhou, Binhua Gui, Quanshun Luo, Haixu Li, Qimin Wang*. Influence of Power Pulse Parameters on the Microstructure and Properties of the AlCrN Coatings by a Modulated Pulsed Power Magnetron Sputtering. Coatings, 2017; 7: 216-233;
10) M.H. Chen, F. Cai, W.L. Chen, Q.M. Wang, S.H. Zhang, Influence of vacuum annealing on structures and properties of Al-Ti-Si-N coatings with corrosion resistance, Surface & Coatings Technology, 2017; 312: 25-31
11) Eun-Young Yun, Woo-Jae Lee, Qi Min Wang, Se-Hun Kwon, Electrical and corrosion properties of titanium aluminum nitride thin films prepared by plasma-enhanced atomic layer deposition, Journal of Materials Science & Technology, 2017; 33(3): 295-299
12) Haijuan Mei, Shengsheng Zhao, Zhengtao Wu, Wei Dai, Qimin Wang*. Effect of nitrogen partial pressure on microstructure and mechanical properties of Mo-Cu-V-N composite coatings deposited by HIPIMS. Surface & Coatings Technology, 2017; 329: 68-76
13) Haijuan Mei, Shengsheng Zhao, Qimin Wang, Residual stress of tin multilayer coatings alternately deposited by arc ion plating and magnetron sputtering. Nanoscience & Nanotechnology Letters, 2017; 9(6): 885-891.
14) Hui Zhou, Jun Zheng, Binhua Gui, Dongsen Geng, Qimin Wang, AlTiCrN coatings deposited by hybrid HIPIMS/DC magnetron co-sputtering. Vacuum, 2017; 136:129-136;
15) Jicheng Ding, Tengfei Zhang, Je Moon Yun, Myung Chang Kang, Qimin Wang*, Kwang Ho Kim*. Microstructure, mechanical, oxidation and corrosion properties of the Cr-Al-Si-N coatings deposited by a hybrid sputtering system. Coatings, 2017; 7: 119-136
16) Dongsen Geng, Haixu Li, Quan Zhang, Xiaobo Zhang, Chengyong Wang, Zhengtao Wu*, Qimin Wang*, Effect of incorporating oxygen on microstructure and mechanical properties of AlCrSiON coatings deposited by arc ion plating, Surface & Coatings Technology, 2017; 310: 223-230;
17) Wei Dai*, Xiang Gao, Jingmao Liu, Se-Hun Kwon, Qimin Wang*, Compositionally modulated multilayer diamond-like carbon coatings with AlTiSi multi-doping by reactive high power impulse magnetron sputtering. Applied Surface Science, 2017; 425: 855–861;
18) Wei Dai*, Xiang Gao, Qimin Wang*, etc. Influence of ne sputtering gas on structure and properties of diamond-like carbon films deposited by pulsed-magnetron sputtering. Thin Solid Films, 2017; 625: 163-167.
19) Wei Dai*, Jingmao Liu, Dongsen Geng, Peng Guo, Jun Zheng, Qimin Wang*, Microstructure and property of diamond-like carbon films with Al and Cr co-doping deposited using a hybrid beams system, Applied Surface Science, 2016, 388: 503-509;
20) Wei Dai*, Xiang Gao, Jingmao Liu, Qimin Wang*, Microstructure, mechanical property and thermal stability of diamond-like carbon coatings with Al, Cr and Si multi-doping, Diamond and Related Materials, 2016; 70: 98-104;
21) Mohan Chen, Wanglin Chen, Fei Cai, Shihong Zhang, Qimin Wang, Structural evolution and electrochemical behaviors of multilayer Al-Cr-Si-N coatings, Surface & Coatings Technology, 2016; 296: 33-39;
22) Wei Liu, Anqiong Li, Haidong Wu, Ying Long, Jiawei Huang, Xin Deng, Chengyong Wang, Qimin Wang, Shanghua Wu,Effects of gas pressure on microstructure and performance of (Ti, Al, Zr)N coatings produced by physical vapor deposition, Ceramics International, 2016; 42:17436-17441;
23) Wei Liu, Anqiong Li, Haidong Wu, Rongxuan He, Jiawei Huang, Ying Long, Xin Deng, Qimin Wang, Chengyong Wang, Shanghua Wu,Effects of bias voltage on microstructure, mechanical properties, and wear mechanism of novel quaternary (Ti, Al, Zr)N coating on surface of silicon nitride ceramic cutting tool, Ceramics International, 2016; 42:17693-17697;
24) Wei Dai, Aiying Wang, Qimin Wang, Microstructure and mechanical property of diamond-like carbon films with ductile copper incorporation, Surface and Coatings Technology, 2015; 272: 33-38; (SCI二区, IF 2.758)
25) Ding, J. C., Zou, C. W., Wang, Q. M., Zeng, K., & Feng, S. C. (2016). Effect of bias voltage on the microstructure and hardness of ti-si-n films deposited by using high-power impulse magnetron sputtering. Journal of the Korean Physical Society, 68(2), 351-356.
26) Haisheng Lin, Chengyong Wang, Yaohui Yuan, Zhihua Chen, Qimin Wang, Weiqiang Xiong, Tool wear in Ti-6Al-4V alloy turning under oils on water cooling comaring with cryogenic air mixed with minimal quantity lubrication, International Journal of Advanced Manufacturing Technology, 2015; 81(1): 87-101;
27) C.Y. Wang, Y.X. Xie, Z. Qin, H.S. Lin, Y.H. Yuan, Q.M. Wang,Wear and breakage of TiAlN- and TiSiN-coated carbidetools during high-speed milling of hardened steel,Wear, 2015; 336-337: 29-42;
28) Li Lu, Qi-min Wang*, Bing-zhou Chen, Yong-cui Ao, Dong-hai Yu, Cheng-yong Wang, Shang-hua Wu, Kwang Ho Kim, Microstructure and cutting performance of CrTiAlN coating for high-speed dry milling, Transaction of Nonferrous Metal Society of China, 2014; 24: 1800-1806;
29) Teng Fei Zhang, Bin Gan, Seong-mo Park, Qi Min Wang, Kwang Ho Kim, Influence of negative bias voltage and deposition temperature on microstructure and properties of superhard TiB2 coatings deposited by high power impulse magnetron sputtering, Surface and Coatings Technology, 2014:253:115-122;
30) Q.M. Wang, Se-Hun Kwon, Kwun Nam Hui, Doo-In Kim, Kwan San Hui, Kwang Ho Kim, Synthesis and properties of crystalline TiO2 films deposited by a HIPIMS+ technique, Vacuum, 2013;89:90-95;
31) Shihong Zhang, Lei Wang, Qimin Wang, Mingxi Li, A superhard CrAlSiN superlattice coating deposited by multi-arc ion plating: I. Microstructure and mechanical properties, Surface and Coatings Technology, 2013:214(15):160-167;
32) Shihong Zhang, Lei Wang, Qimin Wang, Mingxi Li, A superhard CrAlSiN superlattice coating deposited by multi-arc ion plating: II. Thermal stability and oxidation resistance, Surface and Coatings Technology, 2013:214(15):153-159;
33) W. Garkas, S. Weiß, Q.M. Wang, (Cr1-xAlx)N as a candidate for corrosion protection in high temperature segments of CCS plants, Environmental Earth Sciences, 2013, in press;
34) Tie-Gang Wang, Dawoon Jeong, Soo-Hyun Kim, Qimin Wang *, Solveig Melin, Srinivasan Iyengar, Kwang Ho Kim, Study on Nanocrystalline Cr2O3 Films Deposited by Arc Ion Plating: I. Composition, Morphology, and Microstructure Analysis, Surface and Coatings Technology, 2012;206(10):2629-2637;
35) Tie-Gang Wang, Dawoon Jeong, Yanmei Liu, Qimin Wang *, Srinivasan Iyengar, Solveig Melin, Kwang Ho Kim, Study on nanocrystalline Cr2O3 films deposited by arc ion plating: II. Mechanical and tribological properties, Surface and Coatings Technology, 2012;206(10):2638-2644;
36) Teng Fei Zhang, Qi Min Wang*, Junghoon Lee, Peiling Ke, Roman Nowak, Kwang Ho Kim, Nanocrystalline thin films synthesized from a Ti2AlN compound target by high power impulse magnetron sputtering technique, Surface and Coatings Technology, 2012; 212: 199-206
37) Min Su Kang, Tengfei Zhang, Dong-Woo Shin, Qimin Wang*, Kwang Ho Kim, Synthesis and properties of Cr-Al-N films by a hybrid coating system with high power impulse magnetron sputtering (HIPIMS) and DC pulse sputtering, Journal of Ceramic Processing and Research, 2012; 13(s1): 52-58;
38) Woo Jin Lim, Dong-woo Shin, Jung Ho Shin, Se Hun Kwon, Qimin Wang*, Kwang Ho Kim, Synthesis and mechanical properties of Ti-Si-B-N coatings by a PECVD technique, Journal of Ceramic Processing and Research, 2012; 13(s1): 26-30;
39) Tie-Gang Wang, Yanmei Liu, Qimin Wang, Jun Gong, Chao Sun, Kwang Ho Kim, Influence of Residual Stress on the Adhesive Behavior of Detonation Gun Sprayed WC-Co Coatings, Current Applied Physics, 2012; 13(s2): 59-62;
40) Jeong Doo Lee, Qi Min Wang *, Soo-Hyun Kim, Tie-Gang Wang, Kwang Ho Kim, Microstructure and mechanical properties of quaternary Cr-Si-O-N films by a hybrid coating system , Surface and Coatings Technology, 2012;206(18):3721-3727;
41) Q.M. Wang, W. Garkas, A. Flores Renteriz, C. Leyens, H.W. Lee, K.H. Kim, Oxidation behaviour of Ti-Al-C films composed mainly of a Ti2AlC phase, Corrosion Science, 2011; 53(9): 2948-2955;
42) Q.M. Wang, W. Garkas, A. Flores Renteriz, C. Leyens, K.H. Kim, Oxidation behavior of Ti2AlN films composed mainly of nanolaminated MAX phase, Journal of Nanoscience and Nanotechnology, 2011, 11: 8959;
43) Qi-min Wang, Se-Hun Kwon, Kwang-Ho Kim, Formation of nanocrystalline microstructure in arc ion plated CrN films, Transaction of Nonferrous Metal Society of China, 2011, 21: s73;
44) Qi Min Wang, Jun Gong, Chao Sun, Hyung Woo Lee, Kwang Ho Kim, ZrO2 and Y2O3-stablized ZrO2 coatings deposited using an arc ion plating technique, Journal of Ceramic Processing and Research, 2011; 12: 259;
45) Jung Ho Shin, Qi Min Wang *, Kwang Ho Kim, Microstructural evolution and tribological behavior of Mo–Cu–N coatings as a function of Cu content, Materials Chemistry and Physics, 2011; 130: 870;
46) H.Q. Li, Q.M. Wang *, S.M. Jiang, J. Ma, J. Gong, C. Sun, Oxidation and interfacial fracture behaviour of NiCrAlY/Al2O3 coatings on an orthorhombic-Ti2AlNb alloy, Corrosion Science, 2011; 53 : 1097;
47) H.Q. Li, Q.M. Wang *, J. Gong, C. Sun, Interfacial reactions and oxidation behavior of Al2O3 and Al2O3/Al coatings on an orthorhombic Ti2AlNb alloy, Applied Surface Science, 2011; 257: 4105;
48) Won-Sub Kwack, Hyoung-Seok Moon, Seong-Jun Jeong, Qi-min Wang, Se-Hun Kwon, Hybrid Functional IrO2-TiO2 thin film resistor prepared by atomic layer deposition for thermal inkjet printheads, Transaction of Nonferrous Metal Society of China, 2011, 21: s88
49) Q.M. Wang, R. Mykhaylonka, et al. Improving the high-temperature oxidation resistance of a β-γ TiAl alloy by a Cr2AlC coating, Corrosion Science, 2010; 52: 3793;
50) Q.M. Wang, A. Flores Renteria, et al. Fabrication and oxidation behavior of Cr2AlC coating on Ti6242 alloy, Surface and Coatings Technology, 2010; 204: 2343;
51) Jun Seo Yun, Young Su Hong, Se Hun Kwon, Qi Min Wang and Kwang Ho Kim , Characteristics of Ternary Cr-O-N Coatings Synthesized by Using an Arc Ion Plating Technique , Journal of Ceramic Processing and Research, 2010; 57: 103;
52) H.Q. Li, Q.M. Wang *, S.M. Jiang, J. Gong, C. Sun, Ion-plated Al-Al2O3 films as diffusion barriers between NiCrAlY coating and orthorhombic Ti2AlNb alloy, Corrosion Science, 2010; 52: 1668;
53) W.Z. Li, Y.Q. Li, Q.M. Wang, J. Gong, C. Sun, Oxidation of a NiCrAlYSi overlayer with and without a diffusion barrier deposited by one-step arc ion plating, Corrosion Science, 2010; 52: 1753;
54) Q.M. Wang, K.H. Kim, Microstructural control of Cr-Si-N films by a hybrid arc ion plating and magnetron sputtering process, Acta Materialia, 2009; 57: 4974
55) Ji Hwan Yun, Se-Hun Kwon, Jihwan Choi, Qi Min Wang and Kwang Ho Kim, Synthesis and mechanical properties of Cr-Mo-Si-C-N coatings by a hybrid coating system, Journal of Ceramic Processing and Research, 2009; 10: s112
56) Z.B. Bao, Q.M. Wang, W.Z. Li, X. Liu, J. Gong, T.Y. Xiong, C. Sun, Preparation and hot corrosion behavior of an Al-gradient NiCoCrAlYSiB coating on a Ni-base superalloy, Corrosion Science, 2009; 51: 860
57) W.Z. Li, Q.M. Wang, J. Gong, C. Sun, X. Jiang, Interdiffusion reaction in the CrN interlayer in the NiCrAlY/CrN/DSM11 system during thermal treatment, Applied Surface Science, 2009; 255: 8190
58) Q.M. Wang, I.W. Park, K.H. Kim , Influence of N2 gas pressure and negative bias voltage on the microstructure and properties of Cr-Si-N films by a hybrid coating system, Journal of Vacuum Science and Engineering A, 2008; 26: 1188;
59) Q.M. Wang, K.H. Kim, Effect of negative bias voltage on CrN films deposited by arc ion plating: II. Film composition, structure, and properties, Journal of Vacuum Science and Engineering A, 2008; 26: 1267;
60) Q.M. Wang, K.H. Kim, Effect of negative bias voltage on CrN films deposited by arc ion plating: I. Macroparticles filtration and film-growth characteristics, Journal of Vacuum Science and Engineering A, 2008; 26: 1258;
61) S.M. Jiang, X. Peng, Z.B. Bao, S.C. Liu, Q.M. Wang, J. Gong, C. Sun, Preparation and hot corrosion behavior of a MCrAlY+AlSiY composite coating, Corrosion Science, 2008; 50: 3213
62) Z.B. Bao, Q.M. Wang, S.M. Jiang, J. Gong, C. Sun, Influence of salt spray corrosion on subsequent isothermal oxidation behaviors of AIP NiCoCrAlYSiB coatings, Corrosion Science, 2008; 50: 2372
63) Z.B. Bao, Q.M. Wang, W.Z. Li, J. Gong, T.Y. Xiong, C. Sun, Corrosion behavior of AIP NiCoCrAlYSiB coating in salt spray tests, Corrosion Science, 2008; 50: 847
64) K. Zhang, Q.M. Wang, C. Sun, F.H. Wang, Corrosion behavior of NiCrAlYSi coating on a cobalt-base superalloy K40S, Corrosion Science , 2008; 50: 1707
65) W.Z. Li, Q.M. Wang, Z.B. Bao, Y. Yao, J. Gong, C. Sun, X. Jiang, Microstructural evolution of the NiCrAlY/CrON duplex coating system and its influence on mechanical properties, Materials Science and Engineering A, 2008; 498: 487
66) W.Z. Li, Y. Yao, Q.M. Wang, Z.B. Bao, J. Gong, C. Sun, X. Jiang, Improvement of oxidation- resistance of NiCrAlY coatings by application of CrN or CrON interlayer, Journal of Materials Research, 2008; 23: 341;
67) H.Q. Du, S.G. Tian, X.F. Yu, X.D. Lu, Q.M. Wang, Influences of NiCoCrAlYSi coating on high temperature oxidation characteristic of single crystal nickel-base superalloy, Rare Metal Materials and Engineering, 2008; 37: 1555
68) Q.M. Wang, K. Zhang, J. Gong, Y.Y. Cui, C. Sun, L.S. Wen, NiCoCrAlY coatings with and without Al2O3/Al interlayer on an orthorhombic-Ti2AlNb based alloy: oxidation and interdiffusion behaviors, Acta Materialia, 2007; 55: 1427;
69) K. Zhang, Q.M. Wang, C. Sun, F.H. Wang, Preparation and oxidation resistance of a crack-free Al diffusion coating on Ti22Al26Nb, Corrosion Science, 2007; 50: 3598
70) P.L. Ke, Q.M. Wang, M.H. Guo, J. Gong, C. Sun, Y.C. Zhou, Stresses and microstructural development of thermal barrier coatings by AIP/D-gun composite processing, Journal of the American Ceramic Society, 2007; 90: 936;
71) P.L. Ke, Q.M. Wang, J. Gong, C. Sun, Y.C. Zhou, Progressive damage during thermal shock cycling of D-gun sprayed thermal barrier coatings with hollow spherial ZrO2-8Y2O3, Materials Science and Engineering A, 2006; 435/436: 228-236;
72) Y.J. Tang, Q.M. Wang, F.H. Yuan, J. Gong, C. Sun, High temperature oxidation behavior of arc ion plated NiCoCrAlYSiB coatings on cobalt-base superalloy, Journal of Materials Research, 2006; 21(3): 737-746;
73) M.H. Guo, Q.M. Wang, J. Gong, C. Sun, L. S. Wen, Preparation and oxidation of gradient NiCoCrAlYSiB coating deposited by a combined system of arc ion plating and magnetron sputtering, Surface and Coatings Technology, 2006; 201(3/4): 1302-1308;
74) M.H. Guo, Q.M. Wang, P.L. Ke, J. Gong, C. Sun, R.F. Huang, L. S. Wen, The preparation and hot corrosion resistance of gradient NiCoCrAlYSiB coatings, Surface and Coatings Technology, 2006; 200: 3942-3949;
75) M.H. Guo, Q.M. Wang, P.L. Ke, J. Gong, C. Sun, R.F. Huang, L. S. Wen, Oxidation and hot corrosion behavior of gradient MCrAlYSiB coatings deposited by a combination of arc ion plating and magnetron sputtering techniques, Corrosion Science, 2006; 48(9): 2750-2764;
76) Y.N. Wu, Q.M. Wang, P.L. Ke, C. Sun, J. Gong, F.H. Wang and L.S. Wen, Evaluation of arc ion plated NiCoCrAlYSiB coatings after oxidation at 900–1100 °C, Surface and Coatings Technology, 2006; 200 : 2857-2863;
77) Q.M. Wang, Y.J. Tang, M.H. Guo, P.L. Ke, J. Gong, C. Sun, L. S. Wen, Thermal shock cycling behavior of NiCoCrAlYSiB coatings on Ni-base superalloys—Ⅰ. Accelerated oxidation attack, Materials Science and Engineering A, 2005; 406: 337-349;
78) Q.M. Wang, H. Li, M.H. Guo, P.L. Ke, J. Gong, C. Sun, L. S. Wen, Thermal shock cycling behavior of NiCoCrAlYSiB coatings on Ni-base superalloys—Ⅱ. Microstructure evolution, Materials Science and Engineering A, 2005; 406: 350-357;
79) Q.M. Wang, Y. N. Wu, M.H. Guo, P.L. Ke, J. Gong, C. Sun, L. S. Wen, Ion-plated Al-O-N and Cr-O-N films on Ni-base superalloys as diffusion barriers, Surface and Coatings Technology, 2005;197: 68;
80) Y.S. Zou, Q.M. Wang, H. Du, G.H. Song, J.Q. Xiao, J. Gong, C. Sun, L.S. Wen, Structural characteriztion of nitrogen doped diamond-like carbon films deposited by arc ion plating, Applied Surface Science, 2005; 241: 295-302
81) P.L. Ke, Y.N. Wu, Q.M. Wang, J. Gong, C. Sun and L.S. Wen, Study on thermal barrier coatings deposited by detonation gun spraying, Surface and Coatings Technology, 2005; 200 : 2271-2276;
82) Q.M. Wang, Y. N. Wu, P.L. Ke, H.T. Cao, J. Gong, C. Sun, L. S. Wen, Hot corrosion behavior of AIP NiCoCrAlY(SiB) coatings on nickel base superalloys, Surface and Coatings Technology, 2004; 186: 389-397;
83) Q.M. Wang, M.H. Guo, P.L. Ke, J. Gong, C. Sun, L. S. Wen, Oxidation protection of NiCoCrAlY coatings on gamma-TiAl, Transaction of Nonferrous Metal Society of China, 2004; 40: 423-426;
84) Y.N. Wu, P.L. Ke, Q.M. Wang, C. Sun, F.H. Wang, High temperature properties of thermal barrier coatings obtained by detonation spraying, Corrosion Science, 2004; 46 : 2925-2935;
85) A.L. Ji, W. Wang, G.H. Song, Q.M. Wang, C. Sun, L.S. Wen, Microstructures and mechanical properties of chromium oxide films by arc ion plating, Materials Letters, 2004; 58: 1993-1998;