IMR OpenIR
激光熔覆TiC/FeAl原位复合涂层
Alternative TitleIn-situ TiC/FeAl Composite Coating Fabricated by Laser Cladding
赵龙志1; 杨海超1; 赵明娟1; 谢玉江2
2017
Source Publication材料研究学报
ISSN1005-3093
Volume31.0Issue:011Pages:860-866
Abstract用激光熔覆法制备了TiC/FeAl原位复合涂层,使用光学显微镜(OM)和扫描电镜(SEM)观察了熔覆层的微观结构,使用能谱分析仪(EDS)和X射线衍射仪(XRD)分析了涂层的化学成分和物相,研究了熔覆层的显微硬度和耐磨性。结果表明:沿着熔池深度的方向从熔池底部到熔池顶部,FeAl基体从粗大的树枝晶渐渐转变为细小的等轴晶。原位TiC越过熔池界面进入基板表层,大部分TiC颗粒存在FeAl晶粒内部,熔池顶部的TiC颗粒含量较多。沿着熔池深度的方向从涂层顶部到基板,涂层的硬度呈阶梯形分布,熔池顶部涂层的硬度最高,涂层的硬度和耐磨性分别比基板高6倍和52倍。涂层的磨损机理为典型的磨粒磨损。
Other AbstractThe in-situ TiC/FeAl composite coating was fabricated by laser cladding technology in this paper. The microstructure of the coating was characterized by metallographic microscope(OM), scanning electron microscopy(SEM).The phases in the coating were examined by energy dispersive spectrometry(EDS) and X-ray diffraction(XRD), microhardness and wear resistance of the coating were also investigated. The results show that from the bottom to the surface of the melt pool along the depth the coarse dendrite grain is changed into fine quiaxed rosette grain. Some TiC particles going across the interface exist in the surface layer of the substrate. Most of TiC particles existing in the grains are nucleation centers during FeAl matrix solidification. The content of TiC particles in the top of the coating is much higher than that in other zone of the coating. Meanwhile, the microhardness and wear resistance of in-situ laser cladding are 5 times and 52 higher than those of substrate, respectively. And the wear mechanism of the composite coating is abrasive wear.
Keyword材料表面与界面 激光熔覆 原位TiC/FeAl复合涂层 微观结构 硬度 耐磨性
Indexed ByCSCD
Language中文
CSCD IDCSCD:6124919
Citation statistics
Cited Times:1[CSCD]   [CSCD Record]
Document Type期刊论文
Identifierhttp://ir.imr.ac.cn/handle/321006/156256
Collection中国科学院金属研究所
Affiliation1.华东交通大学
2.中国科学院金属研究所
Recommended Citation
GB/T 7714
赵龙志,杨海超,赵明娟,等. 激光熔覆TiC/FeAl原位复合涂层[J]. 材料研究学报,2017,31.0(011):860-866.
APA 赵龙志,杨海超,赵明娟,&谢玉江.(2017).激光熔覆TiC/FeAl原位复合涂层.材料研究学报,31.0(011),860-866.
MLA 赵龙志,et al."激光熔覆TiC/FeAl原位复合涂层".材料研究学报 31.0.011(2017):860-866.
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