摘要
以自制的气雾化合金粉末取代非晶粉末,利用火焰喷涂技术制备了Ni Fe BSi Nb非晶纳米晶涂层。分别对粉末和涂层的微观结构和热力学性能进行了表征。结果表明,自制的合金粉末球形度较好,大多为球形或椭球形;主要为晶体结构,由Nb_2Ni_(21)B_6晶体相和(Ni,Fe)_(23)B_6固溶体组成。而经过火焰喷涂制备的涂层,形成了非晶相和纳米晶相。通过公式计算此合金体系粉末和涂层形成非晶相的临界冷却速率分别为6.01×10~5和4.56×10^(3 )K/s,解释了在粉末制备过程中较难形成非晶相而喷涂过程中形成非晶结构比较容易的原因。对涂层的摩擦磨损性能进行了测试,涂层摩擦系数仅为0.17,具有优异的耐磨性能。
A NiFeBSiNb amorphous/nanocrystalline composite coating was prepared through flame thermal spraying,where a gas atomized alloy powder substituted an amorphous powder.The microstructure and thermal behavior of the laboratory-produced powders and the produced as-sprayed coating were characterized.The results demonstrate that the powder,which is spherical or ellipsoidal,is mainly composed of Nb2Ni(21)B6 and(Ni,Fe)(23)B6 crystalline phases,whereas the as-sprayed coating consists of a glassy structure and certain nanocrystalline phases.It is obtained through calculations that the Rc(critical cooling rate)of the powder and the as-sprayed coating for the amorphous phase formations is 6.01×10^5 and 4.56×10^3 K/s,respectively.The explanation for the amorphous structure,as it occurred in the as-sprayed coating,is the rapid quenching from the melt at the cooling rates which exceeds the critical cooling rate Rc.The as-sprayed amorphous coatings displays a low friction coefficient of 0.17 and excellent wear resistance.
作者
商俊超
梁秀兵
陈永雄
徐滨士
曹维
Shang Junchao1, Liang Xiubing2, Chen Yongxiong2, Xu Binshi1, Cao Wei3)(1 National Defense Key Laboratory for Remanufactunng Technology, Army Academy of Armored Forces, Beijing 100072, China; 2 National Innovation Institute of Defense Technology, Academy of Military Science PLA China, Beijing 100070, China; 3 63963 PLA Troops, Beijing 100072, China)
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
2018年第10期2986-2992,共7页
Rare Metal Materials and Engineering
基金
National Natural Science Foundation of China(51375492,51575527)
