人才信息库
鲍泽斌
性 别 最高学历 博士研究生
职 称 研究员 专家类别 硕士生导师
部 门 材料表面工程研究部
通讯地址 辽宁省沈阳市沈河区文萃路62号,中国科学院金属研究所,材料表面工程研究部
邮政编码 110016 电子邮件 zbbao@imr.ac.cn
电 话 +86-24-23881473 传 真 +86-24-23893624
简历:

  教育背景:

  1998.09-2002.07辽宁工程技术大学, 材料科学与工程, 工学学士

  2002.09-2005.03辽宁工程技术大学, 材料学,         工学硕士

  2005.09-2008.12中科院金属所,     材料加工工程,   工学博士

  2009.03-2011.04国立物质材料研究机构(NIMS),     

  工作经历:

  2009.03-2011.04日本国立物质材料研究机构(NIMS), 白金族元素有效利用及Ir基合金高温防护涂层制备

  2011.06-今:中国科学院金属研究所,高温防护涂层制备及应用
研究领域:

  高性能高温防护热障涂层体系设计,金属材料腐蚀评价、防护方法及材料表面改性,主要研究方向包括:

  (1) 活性元素-铂共改性铝化物涂层

  (2) 高温防护功能梯度涂层成分设计及界面稳定性原理

  (3) 高韧性热障陶瓷涂层设计及性能评价

  (4) 相变增韧超高温无相变陶瓷涂层。
承担科研项目情况:
社会任职:
获奖及荣誉:

  中国腐蚀与防护学会高温专业委员会委员,2016年获“辽宁省百千万人才工程-千层次”称号。
代表论著:

  1. Y.F. Yang, C.Y. Jiang, Z.Y. Zhang, Z.B. Bao*, M.H. Chen*, S.L. Zhu, F.H. Wang, Hot corrosion behaviour of single-phase platinum-modified aluminide coatings: Effect of Pt content and pre-oxidation, Corrosion Science, 127 (2017) 82-90.

  2. L.L. Yang, M.H. Chen*, J.L. Wang, Z.B. Bao*, S.L. Zhu, F.H. Wang, Diffusion of Ta and its influence on oxidation behavior of nanocrystalline coatings with different Ta, Y and Al contents, Corrosion Science, 126 (2017) 344-355.

  3. J.L. Wang, M.H. Chen*, Y.X. Cheng, L.L. Yang, Z.B. Bao*, L. Liu, S.L. Zhu, F.H. Wang, Hot corrosion of arc ion plating NiCrAlY and sputtered nanocrystalline coatings on a nickel-based single-crystal superalloy, Corrosion Science, 123 (2017) 27-39.

  4. H.R. Yao, Z.B. Bao, M.L. Shen, S.L. Zhu*, F.H. Wang, A magnetron sputtered microcrystalline β-NiAl coating for SC superalloys. Part II. Effects of a NiCrO diffusion barrier on oxidation behavior at 1100°C, Applied Surface Science, 407 (2017) 485-494.

  5. Y.F. Yang, C.Y. Jiang, H.R. Yao, Z.B. Bao*, S.L. Zhu, F.H. Wang, Preparation and enhanced oxidation performance of a Hf-doped single-phase Pt-modified aluminide coating, Corrosion Science, 113 (2016) 17-25.

  6. Y.F. Yang, C.Y. Jiang, H.R. Yao, Z.B. Bao*, S.L. Zhu, F.H. Wang, Cyclic oxidation and rumpling behaviour of single phase β-(Ni,Pt)Al coatings with different thickness of initial Pt plating, Corrosion Science, 111 (2016) 162-174.

  7. Y.F. Yang, C.Y. Jiang, Z.B. Bao*, S.L. Zhu, F.H. Wang, Effect of aluminisation characteristics on the microstructure of single phase β-(Ni,Pt)Al coating and the isothermal oxidation behaviour, Corrosion Science, 106 (2016) 43-54.

  8. Z.B. Bao*, H. Murakami, Y. Yamabe-Mitarai, Microstructure and oxidation behaviour of Ir-rich Ir-Al binary alloys, Corrosion Science, 87 (2014): 306-311.

  9. Q. Liu, Y.F. Yang, Z.B. Bao*, S.L. Zhu, F.H. Wang, Oxidation behavior and failure mechanism of a single phase PtAl2 coating, Acta Metallurgica Sinica, 50 (2014): 1102-1108.

  10. Z.B. Bao*, H. Murakami, Y. Yamabe-Mitarai, Surface geometry of pure iridium oxidized at 1373 K in air, Applied Surface Science, 258 (2011): 1514-1518.

  11. Z.B. Bao*, H. Murakami, Y. Yamabe-Mitarai, Effects of thermal exposure on Ir-based alloys with and without Pt coating, Corrosion Science, 53 (2011): 1224-1229.

  12. Y. Yamabe-Mitarai, Z.B. Bao, H. Murakami, H. Abe, T. Matsumoto, Effective use of platinum group metals, Journal of Japan Institute of Metals, 75 (2011): 10-20.

  13. Z.B. Bao, Q.M. Wang, W.Z. Li, X. Liu, J. Gong, T.Y. Xiong, C. Sun, Preparation and hot corrosion behaviour of an Al-gradient NiCoCrAlYSiB coating on a Ni-base superalloy, Corrosion Science, 51 (2009): 860-867.

  14. C.Z. Xu, S.M. Jiang, Z.B. Bao, J. Gong, C. Sun, Isothermal oxidation behaviour of a gradient NiCoCrAlSiY coating deposited by arc ion plating on a Ni-based single crystal superalloy, Corrosion Science, 51 (2009): 1467-1474.

  15. X. Liu, L. Huang, Z.B. Bao, H. Wei, X.F. Sun, H.R. Guan, Z.Q. Hu, Oxidation behavior of graded NiCrAlYRe coatings at 900, 1000 and 1100 °C, Oxidation of Metals, 71 (2009): 125-142.

  16. Z.B. Bao, Q.M. Wang, S.M. Jiang, J. Gong, C. Sun, Influence of salt spraying corrosion on the isothermal oxidation behaviours of AIP NiCoCrAlYSiB coatings, Corrosion Science, 50 (2008): 2372-2380.

  17. Z.B. Bao, Q.M. Wang, W.Z. Li, J. Gong, T.Y. Xiong and C. Sun, Corrosion behaviour of AIP NiCoCrAlYSiB coating in salt spray tests, Corrosion Science, 50 (2008): 847-855.

  18. W.Z. Li, Q.M. Wang, Z.B. Bao, Y. Yao, J. Gong, C. Sun, X. Jiang, Microstructure evolution of NiCrAlY/CrON duplex coating system and its influence on mechanical properties, Materials Science and Engineering A, 498 (2008): 487-494.

  19. X. Liu, L. Huang, Z.B. Bao, X.F. Sun, H.R. Guan, Z.Q. Hu, Preparation and cyclic oxidation of gradient NiCrAlYRe coatings on Ni-based superalloys, Surface and Coatings Technology, 202 (2008): 4709-4713.

  20. S.M. Jiang, X. Peng, Z.B. Bao, S.C. Liu, Q.M. Wang, J. Gong, C. Sun, Preparation and hot corrosion behaviour of a MCrAlY + AlSiY composite coating, Corrosion Science, 50 (2008): 3213-3220.

  21. W.Z. Li, Y. Yao, Q.M. Wang, Z.B. Bao, J. Gong, C. Sun, X. Jiang, Improvement of oxidation resistance by application of CrN or CrON interlayer, Journal of Materials Research, 23 (2008): 341-352.

  22. J. H. Han, S.W. Lee, E.A. Lee, T.Y. Xiong, Z.B. Bao, H. Du, Photocatalytic properties of TiO2 coatings prepared by cold spray process, Materials Science Forum, 01 (2006).

学术活动(近期国际国内会议报告):

  1. 2017 特种粉末冶金及复合材料制备/加工第二届学术会议,“活性元素Zr改性铂铝涂层高温氧化及其腐蚀性能研究”,2017年12月7-9,中国长沙(分会邀请报告)

  2. 2017材料高温腐蚀与防护前沿论坛,“铂改性铝化物涂层”,2017年7月22-25,中国台州(邀请报告)

  3. 2017 International Forum on Advanced Thermal Barrier Coatings & High-temperature Structural Materials, Platinum Modified High Temperature Protective Metal Coatings – “Reactive Element Effect”, 2017/6/24-27, Yuxi, China (Poster)

  4. 2016第三届材料结构与完整性青年论坛,2016年12月17-19,中国沈阳(口头报告)

  5. 4th International Corrosion Engineering Conference (ICEC 2016), “A unique Hf-modified (Ni,Pt)Al coating with enhanced resistance against high temperature oxidation and rumpling”, 2016/8/8-11, Beijing, China (Oral presentation)

  6. 第八届中国腐蚀大会,“不同相结构铂铝涂层高温氧化及热腐蚀性能研究”,2015年11月15-16日,中国厦门(口头报告)

  7. 7th Pacific Rim International Conference on Advanced Materials and Processing (2010), “Investigation on the aligned surface morphology of pure iridium experienced isothermal oxidation at 1373 K”, 2010/08/02-06, Cairns ? Australia (Oral Presentation)

近期获得专利:

  [1] 孙超,鲍泽斌,王启民,李伟洲,宫骏,华伟刚,肖金泉,刘山川,熊天英,一种共沉积梯度MCrAlY涂层的制备工艺,2011. 2,中国,CN 101310972 B.

  [2] 孙超,鲍泽斌,王启民,李伟洲,宫骏,熊天英,孙晓峰,韦华,一种MCrAlY加复合梯度涂层及制备工艺,2012. 1,中国,CN 101310971 B.

  [3] 孙超,姜肃猛,彭新,鲍泽斌,王启民,徐朝政,刘山川,宫骏,一种MCrAlY+AlSiY复合涂层及制备工艺,2012.7,中国,CN 101724301 B.

  [4] 宫骏,王启民,孙超,鲍泽斌,华伟刚,肖金泉,刘山川,姜肃猛,闻立时,一种用于Ti-Al合金的Al/Al2O3/MCrAlY复合涂层及制备方法,2011.11,CN 101310969 B.

  [5] 孙超,王启民,宫骏,王铁刚,刘山川,华伟刚,鲍泽斌,肖金泉,闻立时,一种氧化锆涂层制备工艺,2011.2,CN 101307424 B.

  [6] 鮑澤斌、御手洗容子、村上秀之、耐酸化特性に優れた高温用合金材料およびその製造方法,日本专利,公开号:WO2012033160 A1,授权日期:2014-01-20

  [7] Z.B. Bao, Y. Yamabe-Mitarai, H. Murakami, Alloy Material for High Temperature Having Excellent Oxidation Resistant Properties and Method for Producing the Same, 美国专利,2013.08.22,公开号:US20130216846 A1.

  [8] Z.B. Bao, Y. Yamabe-Mitarai, H. Murakami, ALLOY MATERIAL FOR HIGH TEMPERATURE SERVICE HAVING EXCELLENT OXIDATION RESISTANCE PROPERTIES, AND PROCESS FOR PRODUCTION THEREOF, 欧洲专利, 2013.07.24,公开号:EP2617860 A1.
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