陈小龙

发布时间:2023-10-31 来源:biwn必赢

姓 名:陈小龙

性 别:

研究方向:

[1]先进热障涂层制备技术

(悬浮液等离子喷涂, SPS)/(大气等离子喷涂, APS),(电子束物理气相沉积, EBPVD)(超音速火焰喷涂, HVOF/超音速中温喷涂, WS)

[2]高温热障涂层新材料与结构性能一体化设计;

[3]SOFC、半导体等领域特种功能陶瓷涂层制备技术与应用;

[4]超高温用环境障涂层(Environmental Barrier CoatingEBC)材料与制备技术;

[5]陶瓷注浆成型与先进烧结成型技术

(放电等离子体烧结, SPS),高压烧结,热压烧结等。

邮 箱:Xiaolong.CHEN@jnu.edu.cn

职称及职务:副研究员

学习及工作经历:

2017.9-至今   暨南大学;

2013.7-2017.7 日本国立材料科学研究所 (NIMS),先进高温材料、结构材料中心博士后;

2012.7-2013.7 中国科学院金属研究所,金属腐蚀与防护国家重点实验室助理研究员;

2007.9-2012.7 中国科学院长春应用化学研究所,稀土资源利用国家重点实验室理学博士(硕博连读);

2003.9-2007.6 湖南师范大学(211工程)化学化工学院理学学士。

荣誉与奖励:

[1] 2016年 国际热喷涂期刊Journal of Thermal Spray Technology Outstanding Reviewer (杰出审稿人);

[2] 2015 日本热喷涂学会研究奖励赏(个人获奖);

[3] 2013 吉林省科学技术一等奖(自然科学类)(排名第3);

[4] 2009 中国科学院三好学生

[5] 2006 湖南师范大学未来教育家竞赛优胜奖。

主持科研项目:

[1] 国家自然科学基金-青年基金项目,无定形相的结晶与纳米晶化对六铝酸盐热障涂层热物理性能影响的研究,项目编号: 51301180 (已结题)。

主要参与的科研项目:

[1]日本经济产业省项目,面向高效率燃气轮机新型悬浮液等离子喷涂高性能热障涂层制备技术与低燃油成本下燃气轮机涡轮叶片抗腐蚀长寿命热障涂层开发;

[2]日立高技术公司合作项目,基于悬浮液等离子喷涂技术的半导体电子部件高性能抗等离子侵蚀涂层的开发;

[3]与东京大学合作的日本文部科学省项目,声发射(Acoustic EmissionAE)实时探测热喷涂陶瓷涂层内显微裂纹的形成与扩展;

[4]中国科学院装备研制项目,高性能防护涂层装置研制;

[5]工信部基础科研基金,EB-PVD用陶瓷靶材的研制;

[6]国家杰出青年科学基金,稀土新能源材料,项目编号:50825204

代表性研究论文(一作或通讯作者):

[1] X. Chen, S. Kuroda , T. Ohnuki, H. Araki, M. Watanabe, Y. Sakka, Effects of processing parameters on the deposition of yttria partially stabilized zirconia coating during suspension plasma spray, Journal of the American Ceramic Society, 99 [11] (2016) 3546-3555.

[2] X. Chen*, H. Honda, S. Kuroda*, H. Araki, H. Murakami, M. Watanabe, Y. Sakka, Highly segmented thermal barrier coatings deposited by suspension plasma spray: effects of spray process on microstructure, Journal of Thermal Spray Technology, 25[8] (2016) 1638-1649.

[3] X. Chen, T. Ohnuki, S. Kuroda , M. Gizynski, H. Araki, H. Murakami, M. Watanabe, Y. Sakka, Columnar and DVC-structured thermal barrier coatings deposited by suspension plasma spray: high-temperature stability and their corrosion resistance to the molten salt, Ceramics International, 42 (2016) 16822-16832.

[4] X. Chen*, X. Cao, B. Zou, J. Gong, C. Sun, Corrosion of lanthanum magnesium hexaaluminate as plasma-sprayed coating and as bulk material when exposed to molten V2O5-containing salt, Corrosion Science, 91(2015) 185-194.

[5] X. Chen*, X. Cao, B. Zou, J. Gong, C. Sun, High-temperature corrosion behavior of plasma sprayed lanthanum magnesium hexalumiante coating by vanadium oxide, Journal of the European Ceramic Society 35 (2015) 227-236.

[6] B. Zou, Y. Hui, W. Huang, S. Zhao, X. Chen*, J. Xu, S. Tao, Y.Wang, X. Cai, X. Cao*, Oxidation protection of carbon/carbon composites with a plasma-sprayed ZrB2–SiC–Si/Yb2SiO5/LaMgAl11O19 coating during thermal cycling, Journal of the European Ceramic Society 35 (2015) 2017-2025.Co-corresponding author

[7] X. Chen, Y. Zhang, X. Zhong, Z. Xu, J. Zhang, Y. Cheng, Y. Zhao, Y. Liu, X. Fan, Y. Wang, H. Ma, X. Cao, Thermal cycling behaviors of the plasma sprayed thermal barrier coatings of hexaluminates with magnetoplumbite structure, Journal of the European Ceramic Society 30 (2010) 1649–1657.

[8] X. Chen, Y. Zhao, W. Huang, H. Ma, B. Zou, Y.Wang, X. Cao, Thermal aging behavior of plasma sprayed LaMgAl11O19 thermal barrier Coating,” Journal of the European Ceramic Society 31 (2011) 2285–2294.

[9] X. Chen, Y. Zhao, X. Fan, Y. Liu, B. Zou, Y.Wang, H. Ma, X. Cao, Thermal cycling failure of new LaMgAl11O19/YSZ double ceramic top coat thermal barrier coating systems, Surface & Coatings Technology 205 (2011) 3293–3300.

[10] X. Chen, Y. Zhao, L. Gu, B. Zou, Y. Wang, X. Cao, Hot corrosion behaviour of plasma sprayed YSZ/LaMgAl11O19 composite coatings in molten sulfate–vanadate salt, Corrosion Science 53 (2011) 2335–2343.

[11] X. Chen, B. Zou, Y. Wang, H. Ma, X. Cao, Microstructure and thermal cycling behavior of air plas ma-sprayed YSZ/LaMgAl11O19 composite coatings, Journal of Thermal Spray Technology 20 (6) (2011) 1328–1338.

[12] X. Chen, L. Gu, B. Zou, Y. Wang, X. Cao, New functionally graded thermal barrier coating system based on LaMgAl11O19 /YSZ prepared by air plasma spraying,Surface & Coatings Technology 206 (2012) 2265-2274.