Relevance of Nanoindentation Experiments in Materials Research-A Review

International Journal of Advanced Materials Manufacturing and Characterization Pub Date : 2013-03-13 DOI:10.11127/IJAMMC.2013.02.029

B. A. Prasad, A. Kumaraswamy, B. Babu

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引用次数: 3

Abstract

A B S T R A C T Nano indentation is now commonly used for the study of mechanical properties of materials on the nanoscale.. It offers a direct measure of contact stiffness during the loading portion of an indentation test and, being somewhat insensitive to thermal drift, allows an accurate observation of small volume deformation. Nano scale damage caused by fatigue is of critical importance to the reliability of ultrathin protective overcoats and micro/nanostructures. The cyclic loading used in the nanoidentation makes the technique useful for the evaluation of nanofatigue. Methodologies of the nanoindentation technique used for the characterization of layered materials and nonhomogeneous composites are reviewed and discussed. Applications of the nanoindentation experiments to the measurement of contact stiffness, elastic modulus, hardness, creep resistance, and fatigue properties of the materials are presented. The nanoindentation in conjunction with nanoscratch and friction and wear tests, can be satisfactorily used for the materials characterization of magnetic storage and micro electromechanical systems (MEMS) devices and should find more application

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纳米压痕实验在材料研究中的应用综述

纳米压痕是目前在纳米尺度上研究材料力学性能的常用方法。它在压痕测试的加载部分提供了接触刚度的直接测量，并且对热漂移不敏感，可以精确观察小体积变形。疲劳引起的纳米尺度损伤对超薄防护层和微纳米结构的可靠性至关重要。纳米鉴定中使用的循环载荷使该技术可用于纳米疲劳的评价。综述和讨论了纳米压痕技术用于层状材料和非均质复合材料表征的方法。介绍了纳米压痕实验在测量材料接触刚度、弹性模量、硬度、抗蠕变性能和疲劳性能方面的应用。纳米压痕与纳米划痕、摩擦磨损试验相结合，可以令人满意地用于磁性存储和微机电系统(MEMS)器件的材料表征，并应得到更多的应用

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International Journal of Advanced Materials Manufacturing and Characterization

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