宋鹏

 姓 名

宋鹏

性别

男

 职 称

教授

类别

博士生导师

出生

年月

197907

最高

学位

博士

      电子邮箱

songpeng@kust.edu.cn

songpengkm@163.com

     研究方向

表面涂层材料；高温腐蚀与涂层防护；

热喷涂技术；粉体表面改性及制备技术

     个人简介

宋鹏，教授，博士生导师，太阳成集团tyc234cc古天乐民航与航空学院副经理。2012年德国亚琛工业大学博士毕业，德国于利希研究中心博士后。目前主要从事航空金属粉体材料制备、高温氧化腐蚀及耐磨耐热涂层、等离子改性材料以及热喷涂技术及装备研究。兼任中国材料学会青年工作委员会常务理事、副秘书长。发表SCIE收录论文110余篇，专著3本，授权发明专利33项。2021年获得中国有色金属工业科学技术奖一等奖1项（排名第1），获云南省兴滇英才支持计划青年拔尖人才，江苏省“双创人才”等荣誉。

在研

项目

主持和完成了30余项国家省部级及企业合作课题。主要如下：

[1]       热障涂层中热生长氧化物与合金粘结层“镶嵌式”界面调控及失效机制，国家自然科学基金，2021.1-2024.12

[2]       复合陶瓷涂层中连续过渡区的等离子喷涂构筑及其界面阻裂机制研究，国家自然科学基金，2020.1-2023.12

[3]       外加应力及含水蒸气环境中CoNiCrAIY涂层表面氧化层的生长机制研究，国家自然科学基金，2015.1-2017.12

[4]       基于层状设计的阻裂抗氧化钼基合金复合材料研究，国家级创新项目，2020.1-2022.12

[5]       高性能热防护涂层技术，云南省JM融合创新项目，2021.8-2024.7

[6]       高性能团聚粉末制备技术及示范，云南省科技厅重大专项，2020.1-2022.12

[7]       短流程等离子体制备零维粉体与涂层技术研究，云南省重大专项，2019.1-2021.12

[8]       高性能表面增材涂层绿色制造关键技术研究与开发，云南省工业攻关，2018.1-2020.12

[9]       高温(1000 ℃)用铂-铝-镍基涂层的高通量计算与制备工艺优化，云南省重大专项，2018.1-2019.12

[10]    云南省兴滇英才支持计划青年拔尖人才，2018.1-2022.12

[11]    表面富AI型CoNiCrAIY梯度涂层在含水蒸气环境中的氧化铝生长机制研究，教育部项目，2014.1-2017.01

[12]    富H₂0气氛高频冲击环境中CoNiCrAIYHf涂层的氧化铝生长及失效机制研究，教育部新教师基金，2014.1-2016.1

[13]    高频应力冲击下新型CoNiCrAIY涂层在含水蒸气环境下的氧化铝生长机制，云南省基础研究面上项目，2013.10-2016.09

[14]    2019年度有色金属行业标准制定-氧化铟,国家其它部委项目，2019.11-2021.12

[15]    锆合金管外表面涂层喷涂技术制备，横向，2019.1-2020.6

[16]    锆合金涂层喷涂工艺制备，横向，2019.1-2020.6

[17]    SiC复合材料连接面喷涂保护技术研究，横向，2020.6-2021.10

[18]    包壳材料高温氧化性能测试，横向，2020.6-2021.11

[19]    ODS钢氧化膜制备与分析，横向，2020.07-2020.12

[20]    涂层在常压高温水蒸汽条件下16000h（合计20000h）氧化性能测试，横向，2021.9-2023.9

[21]    超厚热障涂层研制，横向，2021.6-2022.6

[22]    陶瓷层/合金粘结层制备及成形机理研究，横向，2019.1-2021.12

[23]    DD6/PtAI涂层抗氧化性能考核，横向，2021.1-2022.9

[24]    热障涂层的粘结层性能评价与分析，横向，2019.9-2020.9

[25]    高性能涂层材料的粘结材料研制，横向，2019.7-2020.7

[26]    汽轮机高温部件热喷涂防护涂层蒸汽环境下长时高温氧化性能评价与机理研究，横向，2019.1-2020.12

[27]    热喷涂材料、工艺及应用研发，横向，2017.9-2022.8

科研

成果

近年代表性论文、专著、专利

论文：

[1]       Qing Li, Dijun Long, Peng Song, Zhenhua Li, Ruiqian Zhang, Huan Chen, Taihong Huang, Biju Zheng, Jiansheng Lu. Alumina grain growth and grain boundary segregation of FeCrAl-based oxide dispersion-strengthened alloys at high temperature, Corrosion Science, 2022.

[2]       Qing Li, Peng Song, Ruiqian Zhang, Zhenhua Li, Yu Wang, Peinan Du, Jiansheng Lu. Oxidation behavior and Cr-Zr diffusion of Cr coatings prepared by atmospheric plasma spraying on zircaloy-4 cladding in steam at 1300 °C, Corrosion Science, 2022, 203, 110378.

[3]       Qing Li, Yu Wang, Peinan Du, Peng Song, Ruiqian Zhang, Zhenhua Li, Jiansheng Lu. Oxidation properties and microstructure of a chromium coating on zircaloy-4 fuel cladding material applied by atmospheric plasma spraying, Journal of Nuclear Materials, 2022, 560, 153496.

[4]       Chao Li, Xiaohu Yuan, Dingjun Li, Peng Song, Zulai Li, Taihong Huang, Jing Feng, Yang He, Ruixiong Zhai, Qing Li, Chen Hua, Wenlang Huang, Defeng Zhang, Jiansheng Lu. Test atmospheres affecting voids distribution on MCrAlY-bond coats for TBCs at 1050 °C, Corrosion Science, 2022, 195, 109967.

[5]       Rawaid Ali, Taihong Huang, Peng Song, Defeng Zhang, Shabir Ali, Muhammad Arif, Syed Awais, Dadallah Hanifi, Jiansheng Lu. Tribological performance and phase transition of MAX-phase/YSZ abradable seal coating produced by air plasma spraying, Ceramics International, 2022, 48(3), 4188-4199.

[6]       Qing Li, Peng Song, Zhenhua Li, Dijun Long, Yongduo Sun, Taihong Huang, Chao Li, Jiansheng Lu. Effect of water vapor on the oxide growth in FeCrAl-based oxide dispersion-strengthened fuel cladding material at 1100 ℃ and 1200 ℃, Corrosion Science, 2021, 191, 109775.

[7]       Wenlang Huang, Taihong Huang, Peng Song, Rong Chen, Biju Zheng, Chengxi Wang, Chao Li, Jiansheng Lu. CrO2(OH)2 volatilization rate and oxidation behaviour prediction of the NiCr coating in Air-H2O environment at 650, Corrosion Science, 2021, 182, 109303.

[8]       Ruixiong Zhai, Peng Song, Taihong Huang, Chao Li, Chen Hua, Wenlang Huang, Qing Li, Biju Zheng, Jiansheng Lu. Microstructure and oxidation behaviour of MoSi2 coating combined MoB diffusion barrier layer on Mo substrate at 1300 °C. Ceramics International, 2020, 47(7), 10137-10146.

[9]       Taihong Huang, Chunming Deng, Peng Song, Qiang Ji, Chao Li, Rong Chen, Chen Hua, Jianhong Yi. Investigation of oxide scale formation and internal oxidation of an Fe-based coating at 500 °C and 600 °C. Surface and Coatings Technology, 2020, 402, 126309.

[10]    Huang Taihong, Deng Chunming, Song Peng, Lü Jianguo, Li Chao, Shu Yongchun, Sun Benshuang, Ji Qiang, Yi Jianhong. Effect of the interface morphology and initial nanocrack on the fracture property of a ceramic reinforced plasma-sprayed coating. Ceramics International, 2020, 46(16), 24930-24939.

[11]    Huang Taihong, Song Peng, Li Chao, Shu Yongchun, Sun Benshuang, Ji Qiang, Arif Muhammad, Yi Jianhong. Phase transition and interface evolution of Al2O3/ZrO2 particles in plasma-sprayed coatings. Ceramics International, 2020, 46(8), 12275-12281.

[12]     Huang Taihong, Lü Jianguo, Song Peng, Khan Asim, Chen Rong, Yi Jianhong. Effect of Pt doping on oxide scale formation on yttria-dispersion FeCrAl alloy at 1200°C, Corrosion Science, 2020, 168, 108580

[13]     Li Qiaolei, Deng Chunming, Li Lu, Lü Jianguo, Song Peng, Li Chao, Wang Mingjun, Wang Chunjian, Zheng Biju, Lu Jiansheng. Microstructure and interface-adhesion of thermally sprayed continuous gradient elastic modulus FeCrAl-ceramic coatings. Ceramics International, 2019, 46(5), 5946-5959.

[14]     Li Chao, Huang Taihong, Song Peng, Yuan Xiaohu, Feng Jing, Lü Kaiyue, Li Qiaolei, Duan Wenhao, Lu Jiansheng. Effect of water vapour on morphology of the Si/Ti-rich phase at the interface between oxide layer and aluminide coating. Corrosion Science, 2020, 163, 108240.1-108240.10

[15]    Li Qiaolei, Song Peng, Huang Wenlang, Deng Chunming, Wang Chunjian, Li Lu, Zheng Biju, Lu Jiansheng. Improvement in the mechanical properties of plasma spray ceramic-Cu/TI₃AlC₂ gradient coatings by heat treatment. Ceramics International, 2019, 45(17), 22452-22463.

[16]    Huang Taihong, Song Peng, Ji Qiang, Zhai Ruixiong, Huang Yong, Zheng Biju, Yi Jianhong. Effect of in-situ oxidation on the nanomechanical evolution of Fe-base coating with ceramic particles produced by internal rotating plasma spraying. Ceramics International, 2019, 45(16), 19856-19863.

[17]    Li Qiaolei, Song Peng, Dong Quan, Hua Chen, Deng Chunming, Li Lu, Zheng Biju, Lu Jiansheng. Effect of partial crystallization of an amorphous layer on the mechanical properties of ceramic/metal-glass coating by thermal spraying. Ceramics International, 2019, 45(15), 18803-18813.

[18]    Li Qiaolei, Song Peng, Ji Qiang, Huang Yong, Li Demin, Zhai Ruixiong, Zheng Biju, Lu, Jiansheng. Microstructure and wear performance of arc-sprayed Al/316L stainless-steel composite coating. Surface and Coatings Technology, 2019, 374, 189-200.

[19]    Khan Asim, Song Peng, Huang Taihong, Zhou Ying, Xiong Xiping, Li Chao, Lü Jianguo, Chen Rong, Lu Jiansheng. Diffusion characteristics and structural stability of Pt modified β-NiAl/γ′-Ni3Al within NiCoCrAl alloy at high temperature. Applied Surface Science, 2019, 476, 1096-1107.

[20]    He Xuan, Yuan Xiaohu, Xu Hao, Song Peng, Yu Xiao, Li Chao, Huang Taihong, Li Qiaolei, Lü Kaiyue, Feng Jing, Lü Jianguo, Lu Jiansheng. Analysis of structure and microhardness of Al2O3-40？wt.% TiO2/NiCoCrAl gradient coating with in-situ needle-like phase reinforcement after high-temperature treatment. Ceramics International, 2019.

[21]    Li Qiaolei, Yuan Xiaohu, Xu Hao, Song Peng, Li Qing, Lü Kaiyue, Huang Taihong, Li Chao, Lu Jiansheng. Microstructure and fracture toughness of in-situ nanocomposite coating by thermal spraying of Ti3AlC2/Cu powder. Ceramics International, 2019, 45(10), 13119-13126.

[22]    Yu Xiao, Song Peng, He Xuan, Khan Asim, Huang Taihong, Li Chao, Li Qiaolei, Lü Kaiyue, Chen Kunlun, Lu Jiansheng. Influence of the combined-effect of NaCl and Na2SO4 on the hot corrosion behaviour of aluminide coating on Ni-based alloys. Journal of Alloys and Compounds. Journal of Alloys and Compounds, 2019, 790, 228-239.

[23]    Li Qiaolei, Song Peng, He Xuan, Yu Xiao, Li Chao, Huang Taihong, Lü Kaiyue, Zhou Ying, Lu Jiansheng. Plastic metallic-barrier layer for crack propagation within plasma-sprayed Cu/ceramic coatings. Surface and Coatings Technology, 2019, 360, 259-268.

[24]    Li Chao, Song Peng, Feng Jing, Huang Taihong, Lü Kaiyue, Li Qiaolei, Duan Wenhao, Khan Asim, Zhai Ruixiong, Lu Jiansheng. Alumina growth behaviour on the surface-modified NiCoCrAl alloy by Pt and Hf at high temperature. Applied Surface Science, 2019, 479, 1178-1191.

[25]    Li Qiaolei, Song Peng, Lü Kaiyue, Dong Quan, Li Qing, Tan Jun, Li Qingwei, Lu Jiansheng. Fracture behaviour of ceramic–metallic glass gradient transition coating. Ceramics International, 2018, 45(5), 5566-5576.

[26]    Li Qiaolei, Song Peng, Lü Kaiyue, Huang Weifan, Duan Wenhao, Huang Taihong, Lu Jiansheng. Enhanced interface adhesion by in-situ oxidation within metal-ceramic coatings. Ceramics International, 2018, 44(18), 23273-23278

[27]    He Xuan, Song Peng, Yu Xiao, Li Chao, Huang Taihong, Zhou Ying, Li Qiaolei, Lü Kaiyue, Lü Jianguo, Lu Jiansheng. Evolution of cracks within an Al₂O₃–40？wt%TiO₂/NiCoCrAl gradient coating. Ceramics International, 2018

[28]    Chen Kunlun, Song Peng, Li Chao, Zhou Ying, He Xuan, Yu Xiao, Lu Jiansheng. Influence of heat treatment on alternant-layer structure and mechanical properties of Al₂O₃-TiO₂-MgO coatings. Ceramics International, 2018, 44(12), 13727-13735

[29]    Song Peng, Yu Xiao, Huang Taihong, He Xuan, Ji Qiang, Zang Junjie, Chen Rong, Lü Jianguo, Lu Jiansheng. Evolution of in-situ pores and high-temperature thermal-barrier performance of Al-Si coating on NiCoCrAl alloy. Surface and Coatings Technology, 2018, 344:489-498.

[30]    Zang Junjie, Song Peng, Feng Jing, Xiong Xiping, Chen Rong, Liu Guangliang, Lu Jiansheng. Oxidation behaviour of the nickel-based superalloy DZ125 hot-dipped with Al coatings doped by Si. Corrosion Science, 2016, 112, 170-179.

专著:

[1]       宋鹏，冯晶，黄太红，热机用金属材料高温氧化与防护，科学出版社，ISBN978-7-03-064740-5

授权专利：

[1]       宋鹏，翟瑞雄，黄太红，陈榕，吕建国，一种提高钼合金表面抗高温烧蚀性能的方法，发明专利，CN202010963326.X，授权日期2022-02-25

[2]       宋鹏，李乔磊，黄太红，陆建生，一种原位纳米金属-陶瓷复合涂层及其制备方法，发明专利，201910398271.X，授权日期2021-11-23

[3]       宋鹏，李青，黄太红，易健宏，李才巨，一种热喷涂高温摩阻制动涂层材料及其制备方法，发明专利，202010954839.4，授权日期2021-09-03

[4]       宋鹏，李青，一种热喷涂高温传感器测温涂层及制备方法，发明专利，201910402462.9，授权日期2021-06-08

[5]       宋鹏，何玄，陆建生，一种粒径可控的二氧化锡超细粉末的制备方法，发明专利 201811491360.0，授权日期2021-02-23

[6]       宋鹏，李乔磊，吕建国，陆建生，一种热喷涂界面增强剂及其制备与使用方法，发明专利，201710372783.X，授权日期 2021-01-05

[7]       宋鹏，李乔磊，黄太红，陆建生，一种高温耐磨氧化铝陶瓷基复合涂层的制备方法，发明专利，201811003786.7，授权日期2020-10-27

[8]       宋鹏，李乔磊，黄太红，陆建生，一种热喷涂多孔陶瓷涂层的制备方法发明专利，201811004640.4，授权日期 2020-08-25

[9]       宋鹏，李乔磊，黄太红，陆建生一种热喷涂耐高温陶瓷涂层的制备方法，发明专利，201811002421.2，授权日期 2020-07-10

[10]    宋鹏，吕凯月，陆建生，一种气敏涂层材料及其制备方法，发明专利，201811256698.8，授权日期2020-07-07

[11]    宋鹏，于晓，李超，何玄，陆建生，一种提高镍基合金抗氧化性能的方法，发明专利，201710346812.5，授权日期2019-06-07

[12]    宋鹏，李乔磊，陈榕，陆建生，吕建国，一种增强热喷涂涂层抗菌效果的方法，发明专利，201710372765.1，授权日期 2019-04-12

[13]    宋鹏，李乔磊，夏露，陆建生，吕建国，一种热喷涂抗菌涂层及其制备方法，发明专利，201710372782.5，授权日期2019-04-09

[14]    宋鹏，李超，陆建生，刘光亮，一种金属幕墙及其制备方法，发明专利，201610507890.4，授权日期2019-02-19

[15]    宋鹏，陈昆伦，李超，陆建生，刘光亮，一种消除喷涂涂层孔隙率的方法，发明专利 201610910259.9，授权日期2019-02-05

[16]    宋鹏，罗恒，陆建生，刘光亮，一种采用热喷涂法制备多层涂层的方法，发明专利，201610446917.3，授权日期2018-11-27

[17]    宋鹏，李乔磊，罗恒，彭俊铭，一种释放采用热喷涂制备涂层的内应力的方法，发明专利201610257986.X，授权日期2018-11-09

[18]    宋鹏，刘光亮，蒋业华，周会会，黄太红，一种机械加工刀具的制备方法，发明专利，201410730695.9，授权日期2018-10-02

[19]    宋鹏，罗恒，陆建生，刘光亮，一种热喷涂法制备多层涂层的方法，发明专利，201610446733.7，授权日期2018-10-02

[20]    宋鹏，季强，陆建生，廖红星，刘光亮，马景涛，一种制备钛铝合金薄板的方法，发明专利，201510699864.1，授权日期2018-02-09

[21]    宋鹏，李超，季强，刘光亮，陆建生，一种热喷涂实验用试样夹具，实用新型专利，201620253219.7，授权日期2016-10-12

[22]    宋鹏，刘光亮，蒋业华，陆建生，黄太红，周会会，一种金属材料表面的陶瓷涂层及其制备方法，发明专利，201410614791.7，授权日期2016-09-21