摘要
随着纳米压痕技术的进步,越来越多的数据表明纳米压痕中发生的位移突变现象不是完美晶格均质形核过程而是借助于空位的异质位错形核过程。但是这个结论主要是基于纳米压痕力学统计模型提取的激活能和激活体积这2个参数确立的,而鲜有实验直接验证位移突变或位错形核与空位之间的关联。根据先前对高熵合金的纳米压痕研究,通过设计的纳米压痕实验来验证这种关联性。实验发现,当施加的载荷保持在亚临界水平一段时间后,依然可以观察到位移突变;而且,位移突变的大小(位移突变结束和开始时刻的位移差)与纳米压痕的压头尺寸成正比。位移突变对时间和压头尺寸的依赖性可以通过空位的特性得到合理的解释:第一,空位在任何载荷水平下都会发生迁移,而且需要一定时间形成空位堆作为位错的形核中心;第二,空位数量与压头作用区域的体积成正比,而这个体积又与压头尺寸成正比,另一方面,空位数量又决定了位错形核的数量进而解释了位移突变尺寸与压头尺寸成正比的现象。这也就从实验上直接验证了空位在位移突变或位错形核的过程扮演的重要角色。
With the advancement of nanoindentation technology,more and more data support that the pop-in event is not a homogeneous but a heterogeneous dislocation nucleation process mediated by vacancy-like defects.However,the conclusion is based on the two model-extracted parameters,namely activation energy and activation volume.Few experiments can directly correlate the pop-in event with vacancy activities.Following our previous nanoindentation study on fcc high entropy alloy CoCrFeMnNi,this correlation was verified by specially-designed nanoindentation experiments.Results show that when the indenter is held under a subcritical load(in reference to the critical load that triggers instantaneous pop-in)for a period of time,delayed pop-in is observed.Furthermore,the displacement bust size increases with the tip radius up to a few hundred nanometers.These two observations suggest that the vacancy is at play because the vacancy can migrate under any applied stress and its number within the indented volume depends on the tip radius.
作者
徐小溪
穆星奇
朱超
Xu Xiaoxi;Mu Xingqi;Zhu Chao(School of Logistics Engineering,Wuhan University of Technology,Wuhan 430063,China)
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
2020年第12期4005-4009,共5页
Rare Metal Materials and Engineering
基金
WHUT Young Talent Start-up Fund(40120378)。
关键词
纳米压痕
位移突变
位错形核
空位
时间相关性
压头尺寸
nanoindentation
pop-in
dislocation nucleation
vacancy
time dependence
tip radius dependence