摘要
用激光束在4Cr13钢基体上熔覆ZrO2与Ni合金的混合粉末,形成了分层结构的复合涂层,即表面为致密的ZrO2陶瓷层.介于陶瓷层与基体之间的是Ni基合金过渡层。组织分析表明,ZrO2层的上部为等轴晶,中下部为柱状晶,主要由t'-ZrO2相及少量沿t'晶界分布的m-ZrO2相组成;Ni合金结合带呈现出树枝晶及其晶间共晶的单一凝固组织。该复合涂层的分层机制可解释为互不混溶的ZrO2与Ni合金熔珠在界面张力和浮力作用下发生离析重排,再各自重新凝固。
Using a laser to clad a mixture POwder of 60 V. -% ZrO2 plus 40 V.-% Nialloy preplaced on steel 4Cr13 substrate, a comPOSite coating that consists of a pure Zro2layer at the upper region and a Ni-alloy bonding zone adjacent to the substrate is formed. The microstructural analyses reveal that the ZrO2layer exhibits equiaxed grains at the upper part and a columnar structure at the lower part and is comPOsed of t-ZrO2 Phase and 2. 9% m-ZrO2 phase distributed along the t boundary. The bonding zone presents an even solidification microstructure comPOsed of Ni-based dendrites and interdendritic eutectics. The stratification mechaoism of the comPOSite coating is interpreted as that the insoluble meltS of ZrO2 and Ni-alloy POwders undergo a redistribution before solidification due to density difference and inter facial,tension between these two liquid Phases, and then rasolidify separately.
出处
《中国激光》
EI
CAS
CSCD
北大核心
1996年第3期265-268,共4页
Chinese Journal of Lasers
关键词
复合涂层
激光熔覆
ZrO2/Ni合金
4CR13钢
solidification microstructure
stratification mechanism
composite coating
ZrO_2
laser cladding
