纳米压痕过程中压头尖端几何形状对弹性变形的影响。

Influence of indenter tip geometry on elastic deformation during nanoindentation.

作者信息

Bei H, George E P, Hay J L, Pharr G M

机构信息

Department of Materials Science and Engineering, The University of Tennessee, Knoxville, 37996, USA.

出版信息

Phys Rev Lett. 2005 Jul 22;95(4):045501. doi: 10.1103/PhysRevLett.95.045501. Epub 2005 Jul 19.

DOI:10.1103/PhysRevLett.95.045501

PMID:16090818

Abstract

Nanoindentation with a Berkovich indenter is commonly used to investigate the mechanical behavior of small volumes of materials. To date, most investigators have made the simplifying assumption that the tip is spherical. In reality, indenter tips are much more complex. Here, we develop a new method to describe the tip shape using the experimentally determined area function of the indenter at small depths (0-100 nm). Our analysis accurately predicts the elastic load-displacement curve and allows the theoretical strength of a material to be determined from pop-in data. Application of our new method to single crystal Cr3Si shows that the predicted theoretical strengths are within 12% of the ideal strength G/2pi, where G is the shear modulus.

摘要

使用贝氏压头进行纳米压痕常用于研究小体积材料的力学行为。迄今为止，大多数研究人员都做了一个简化假设，即压头尖端是球形的。实际上，压头尖端要复杂得多。在此，我们开发了一种新方法，利用实验确定的小深度（0 - 100纳米）下压头的面积函数来描述尖端形状。我们的分析准确地预测了弹性载荷 - 位移曲线，并能根据压入数据确定材料的理论强度。将我们的新方法应用于单晶Cr3Si表明，预测的理论强度在理想强度G/2π的12%以内，其中G是剪切模量。

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纳米压痕过程中压头尖端几何形状对弹性变形的影响。

Influence of indenter tip geometry on elastic deformation during nanoindentation.

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