1.科研项目
[1]国家自然科学基金青年项目,52101075,******的纳米结构调控及高温氧化机制研究,2022.01-2024.12,30万,主持。
[2]中国博士后基金面上资助,2021M700557,******高温服役特性的影响机制,2022.01-2024.01,8万,主持。
[3]重庆市科委博士后基金,双金属耦合体系中镁合金******的关联机制,2021.07-2023.06,10万元,主持。
[4]重庆理工大学科研启动经费,2020ZDZ004,******梯度结构调控及高温氧化机制研究,2021.01.01-2023.12.31,30万,主持。
[5]国家自然科学基金面上项目,51671202,镍基单晶高温合金用抗高温氧化和抑制针状TCP相******研究,2017.01-2020.12,60万,主研。
[6]国防基础科研项目, JCKY20160404C001,超高韧******热障涂层材料的研究,2016.01-2019.12,250万,主研。
[7]重庆市科技预见项目,2020CCR05,重庆航空航天轻量化材料产业技术预见及发展对策,2020.09.01-2021.02.28,10万,主研。
2.学术论文
(1)C.T. Yu, H. Liu et al. Modification of NiCoCrAlY with Pt: Part II. Application in TBC with pure metastable tetragonal (t′) phase YSZ and thermal cycling behavior, Journal of material science and technology, 2019, 35 (3): 350-359.
(2)C.T. Yu, H. Liu, et al. Gradient thermal cycling behavior of a thermal barrier coating system constituted by NiCoCrAlY bond coat and pure metastable tetragonal nano-4YSZ top coat, Ceramics International, 2019,45 (12): 15281-15289.
(3)C.T. Yu, H. Liu, et al. High temperature performance of (Ni,Pt)Al coatings on second generation Ni-base single crystal superalloy at 1100 °C: Effect of excess sulfur impurity, Corrosion Science, 2019,159: 108115.
(4)余春堂,阳颖飞,鲍泽斌,朱圣龙,先进高温热障涂层用高性能粘接层制备及研究进展,中国腐蚀与防护学报,2019, 39 (05):395-403.
(5) C.Y. Jiang, M. Feng,C.T. Yu, et al. Thermal cycling behavior of nanostructured and conventional Yttria-Stabilized Zirconia Thermal Barrier Coating Via Air Plasma Spray, Rare Metals, https://doi.org/10.1007/s12598-019-01319-x.
(6) H. Liu, S. Li, C.Y. Jiang,C.T. Yu, et al. Oxidation performance and interdiffusion behavior of a Pt modified aluminide coating with pre-deposition of Ni, Acta Metallurgica Sinica (English Letters), 2019, 32 (12):1490-1500.
(7) H. Liu, S. Li, C.Y. Jiang,C.T. Yu, Z.B. Bao, S.L. Zhu, F.H. Wang, Preparation and oxidation performance of a low-diffusion Pt-modified aluminide coating with Re-base diffusion barrier, Corrosion Science, 2020, 168: 108582.
(8) A. Ullah, A. Khan, Z.B. Bao,C.T. Yu, S.L. Zhu, F.H. Wang, Effect of vacuum annealing on initial oxidation behavior and alumina transition of NiCoCrAlY coatings, Surface and Coatings Technology, 2020, 404: 126441.
(9) G.Z. Quan,C.T. Yu, Y. Liu, Y.F. Xia. A Comparative Study on Improved Arrhenius-Type and Artificial Neural Network Models to Predict High-Temperature Flow Behaviors in 20MnNiMo Alloy, The Scientific World Journal, 2014,1: 108492.
(10) G.Z. Quan, Y. Shi,C.T. Yu, J. Zhou, The Improved Arrhenius Model with Variable Parameters of Flow Behavior Characterizing for The As-Cast AZ80 Magnesium Alloy, Materials Research, 2013,16 (4): 785-791.
(11) G.Z. Quan, Y. Wang,C.T. Yu, J. Zhou, Hot workability characteristics of as-cast titanium alloy Ti–6Al–2Zr–1Mo–1V: A study using processing map, Materials Science and Engineering A, 2013, 564: 46-56.
(12) W.Q. Lv, G.Z. Quan,C.T. Yu, L. Zhao, J. Zhou. Effect of strain, strain rate and temperature on workability of AZ80 wrought magnesium alloy, Transactions of Nonferrous Metals Society of China, 2012, 22: 650-655.
(13) G.Z. Quan, G.S. Li, Y. Wang, W.Q. Lv,C.T. Yu, J. Zhou, A Characterization for the Flow Behavior of As-Extruded 7075 Aluminum Alloy by the Improved Arrhenius Model With Variable Parameters,Materials Research, 2003: 16(1):19-27.
(14)权国政,余春堂,刘莹莹,夏玉峰,周杰, 20MnNiMo钢热塑性变形与动态再结晶软化的耦合行为,材料热处理学报, 2013, 34 (8): 177-183.
(15)权国政,陈涛,余春堂,王阳,周杰,挤压态42CrMo钢热塑性加工图及稳态变形参数识别,材料热处理学报, 2013, 34 (2) :83-89.
(16)夏玉峰,赵磊,余春堂,权国政,周杰, 42CrMo钢动态再结晶的临界条件,材料热处理学报, 2013, 34 (4): 74-79.
(17)权国政,王阳,余春堂,董旭刚,周杰,基于DMM加工图的7050铝合金热塑性变形参数优化识别,材料热处理学报, 2013, 34 (6): 169-173.
(18)高飞,周杰,朱珊珊,沈力,余春堂,预热与焊后回火对铸钢基体双金属梯度堆焊锻模堆焊层组织与性能的影响,中南大学学报(自然科学版), 2017, 48 (09).
(19)曾强,周杰,顾铭,余春堂,胡永毅,王平, ZG29MnMoNi基体不同预热温度对过热区热循环及组织的影响,热加工工艺, 2015, 44 (11).
(20)胥筱康,余春堂,汪义高,1600t多工位压力机装备特点及运用,锻造与冲压,2015,(19)26-28.
3.专利
(1)权国政,吕文权,余春堂,夏玉峰,周杰,等圆截面到变方形截面的差温推压制备筒坯方法及装置,2014.03.12,中国,CN201210094967.1
(2)鲍泽斌,刘贺,余春堂,朱圣龙,王成,辛丽,一种用于单晶高温合金低扩散单相铂铝涂层的制备方法,2021.10.27,中国发明专利:201910153963.
