材料科学
摩擦学
热喷涂
微观结构
涂层
复合材料
基质(水族馆)
多孔性
粒子(生态学)
悬挂(拓扑)
相(物质)
数学
海洋学
纯数学
地质学
有机化学
化学
同伦
作者
Junlong Sun,Changxia Liu,Federico Venturi,Acacio Rincón Romero,Tanvir Hussain
标识
DOI:10.1016/j.jallcom.2023.171582
摘要
In our present work, alumina/BNNTs and alumina/MoS 2 coatings were deposited onto stainless steel substrates by solution precursor high velocity oxy-fuel thermal spraying. The phase evolution, microstructure and tribological properties of the two kinds of coatings were studied. Investigation of the phased content showed that Al 2 O 3 , BN and MoS 2 survived in the coatings after being sprayed with SHVOF technology . Cross-section images of the coatings showed that the interface between the coating and the substrate was well bonded, and there were no obvious particle inclusions and defects at the interface. The top morphology of the coatings exhibited certain degree of particle deformation, which was conducive to the formation of a more compact coating with less porous and better bonding strength with the substrate. Dry sliding tests showed that alumina/BNNTs and alumina/MoS 2 coating improved the tribological properties of the samples and they were suitable for low load friction conditions (5 and 10 N). A crack evolution model was proposed to analyze the failure of coatings. This work could provide a reference for the application of the two coatings in the field of friction and wear. • Alumina/BNNTs and alumina/MoS 2 were deposited onto a stainless steel substrate using SHVOF thermal spraying. • The top morphology of the coatings exhibited a certain degree deformation of the particles. • The wear mechanisms of the coatings were dominated by coating peeling off, adhesion and abrasive wear. • A crack evolution model was proposed to analyze the failure of coatings.
科研通智能强力驱动
Strongly Powered by AbleSci AI