激光-感应复合熔覆Cu-Fe合金涂层的结构与性能  被引量:4

Microstructure and property of Cu-Fe alloy coating prepared by laser-induction hybrid cladding

在线阅读下载全文

作  者:周圣丰[1] 戴晓琴[2] 熊征[3] 张天佑[1] 吴超[1] 

机构地区:[1]南昌航空大学材料科学与工程学院,南昌330063 [2]南昌航空大学信息工程学院,南昌330063 [3]海军工程大学理学院,武汉430033

出  处:《中国有色金属学报》2014年第7期1812-1816,共5页The Chinese Journal of Nonferrous Metals

基  金:国家自然科学基金资助项目(50901040);江西省科技支撑计划资助项目(20122BBE500031)

摘  要:采用激光-感应复合熔覆方法,在黄铜基材表面制备Cu-Fe合金涂层,研究涂层的显微组织与性能特征。结果表明,当激光扫描速度为3000 mm/min、粉末流量为110 g/min时,在黄铜基材上获得表面较光滑、无气孔与裂纹的Cu-Fe合金涂层。另外,Cu-Fe合金在激光-感应复合熔覆过程中发生液相分离,在涂层底部,过饱和的金属基体α-Fe呈平面状与柱状枝晶生长;在涂层中上部,直径不等的球状颗粒α-Fe镶嵌在过饱和的金属基体ε-Cu内,许多细小的白色粒状物ε-Cu在球状颗粒α-Fe内均匀弥散析出,涂层的平均显微硬度相对于基材的提高约2.8倍。Cu-Fe alloy coating was produced on the brass substrate by laser-induction hybrid cladding (LIHC). The microstructure and property of the coating were investigated. The results show that during LIHC when the laser scanning speed and powder feeding rate are 3000 mm/min and 110 g/min, respectively, the smooth, pore-free and crack-free Cu-Fe coating on the substrate is obtained. Furthermore, the liquid phase separation of Cu,Fe alloy takes place during LIHC. At the bottom of the coating, the supersaturated metal matrix identified as α-Fe presents the characteristics of planar growth and colunmar dendritic growth. In the center of the coating, the spherical particles identified as α-Fe with different sizes are embedded in the supersaturated metal matrix ε-Cu. Large amounts of fine and white grains identified as ε-Cu phase precipitate inside the spherical α-Fe particles. As a result, the average microhardness of coating is about 2.8 times higher than that of the brass substrate.

关 键 词:Cu-Fe合金涂层 黄铜基材 激光-感应复合熔覆 显微结构 

分 类 号:TG113.1[金属学及工艺—物理冶金]

 

参考文献:

正在载入数据...

 

二级参考文献:

正在载入数据...

 

耦合文献:

正在载入数据...

 

引证文献:

正在载入数据...

 

二级引证文献:

正在载入数据...

 

同被引文献:

正在载入数据...

 

相关期刊文献:

正在载入数据...

相关的主题
相关的作者对象
相关的机构对象