摘要
As promising abradable seal coating materials used in high temperature range, the homologous layered InFeO3(ZnO)m (m = 1, 2, 3...20) have attracted great attention. In this short review, we summary the research progress in InFeO3(ZnO)m that were developed in our group. We first introduced a series of conventional abradable seal coating materials as a research motivation. Second, the phase composition and crystal structures of lnFeO3(ZnO)m system were presented. Then, their thermophysical properties, as the most important part, were introduced in detail. At last, the mechanical properties such as hardness, friction coefficient, erosion wear resistance of InFeO3(ZnO)m system were also described. Our summary indicates that InFeO3(ZnO)m sys- tems are promising abradable seal coating materials.
As promising abradable seal coating materials used in high temperature range, the homologous layered InFeO3(ZnO)m (m = 1, 2, 3...20) have attracted great attention. In this short review, we summary the research progress in InFeO3(ZnO)m that were developed in our group. We first introduced a series of conventional abradable seal coating materials as a research motivation. Second, the phase composition and crystal structures of lnFeO3(ZnO)m system were presented. Then, their thermophysical properties, as the most important part, were introduced in detail. At last, the mechanical properties such as hardness, friction coefficient, erosion wear resistance of InFeO3(ZnO)m system were also described. Our summary indicates that InFeO3(ZnO)m sys- tems are promising abradable seal coating materials.
基金
financially supported by the National Natural Science Foundation of China(Nos.51671015,51571007 and 51772012)
the Beijing Municipal Science and Technology Commission(No.Z171100002017002)
the Shenzhen Peacock Plan team(No.KQTD2016022619565911)