材料科学
氧化钇稳定氧化锆
微观结构
立方氧化锆
原材料
复合材料
热的
热喷涂
热障涂层
冶金
陶瓷
涂层
化学
物理
有机化学
气象学
作者
Liuyang Bai,Gewen Yi,Shanhong Wan,Wenping Li,Liying Xie,Jiyang Wang,Huwei Sun,Peiying Shi,Sang T. Pham
摘要
Abstract The influence of spraying power and YSZ (yttria‐stabilized zirconia) feedstock powder on coating microstructures and properties has been demonstrated in the case of atmospheric plasma‐sprayed YSZ coatings. Two types of YSZ powders, conventional and hollow‐structural feedstock, were investigated. Microstructural defects of as‐deposited YSZ coatings, such as porosity, interlamellar pores, and intrasplat cracks, were analyzed from the top view and fracture surfaces. Compared to conventional YSZ coating, the YSZ coating produced from hollow‐structural feedstock demonstrated distinct features, including high porosity and good mechanical interlocking. However, with an increase in spray power, the porosity of almost all YSZ coatings decreased. Hollow‐structured YSZ coating exhibits highly mechanical compliance and lower thermal conductivity as referenced to conventional YSZ coating. The processing parameters of conventional and hollow‐structured YSZ coatings were optimized considering the correlations among processes, microstructure features, and properties in combination with adopting optimized feedstock powders, providing opportunities for continuing optimization of thermal barrier YSZ coatings.
科研通智能强力驱动
Strongly Powered by AbleSci AI