Application of Digital Image Correlation to Small Punch Test for Determination of Stress–Strain Properties

IF 1.6 4区材料科学 Q2 Materials Science

Transactions of The Indian Institute of Metals Pub Date : 2024-08-27 DOI:10.1007/s12666-024-03442-5

Abdul Rahman Shaik, Aishwary Vardhan Pandey, V. Karthik, Ashish Kolhatkar, G. Abhishek, R. Divakar

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Abstract

The analysis of the small punch test is based on the force on the moving punch and the deflection data acquired at a single point of the specimen bottom. However, the spatial distribution of stress and strain at any given instant is non-uniform and its variations with increase in punch penetration are quite complex. In this work, the digital image correlation (DIC) technique is integrated with small punch test for in-situ full field strain measurement in the bottom surface of the specimen. The DIC results reveal that with the progression of deformation, the peak equivalent plastic strain at the bottom surface shifts from the center of the specimen to a characteristic radial location, where the strain rapidly builds up and concentrates leading to instability and cracking. Combining DIC-based strain results with finite element model-based stress estimation at the characteristic radial location, a methodology for determining the stress–strain curve from small punch test is formulated and the outcomes are compared with tensile test results for four different metallic alloys.

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将数字图像相关性应用于确定应力-应变特性的小型冲压试验

小型冲压试验的分析是基于移动冲头上的力和在试样底部单点获得的挠度数据。然而，任何给定瞬间的应力和应变的空间分布都是不均匀的，而且随着冲头穿透力的增加，其变化也相当复杂。在这项工作中，数字图像相关（DIC）技术与小冲压试验相结合，对试样底面进行了原位全场应变测量。DIC 结果显示，随着变形的进行，底面的等效塑性应变峰值从试样中心转移到一个特征径向位置，应变在该位置迅速积累并集中，导致不稳定和开裂。结合基于 DIC 的应变结果和基于有限元模型的特征径向位置应力估算，制定了确定小冲压试验应力-应变曲线的方法，并将结果与四种不同金属合金的拉伸试验结果进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Transactions of The Indian Institute of Metals Materials Science-Metals and Alloys

CiteScore

2.60

自引率

6.20%

发文量

期刊介绍： Transactions of the Indian Institute of Metals publishes original research articles and reviews on ferrous and non-ferrous process metallurgy, structural and functional materials development, physical, chemical and mechanical metallurgy, welding science and technology, metal forming, particulate technologies, surface engineering, characterization of materials, thermodynamics and kinetics, materials modelling and other allied branches of Metallurgy and Materials Engineering. Transactions of the Indian Institute of Metals also serves as a forum for rapid publication of recent advances in all the branches of Metallurgy and Materials Engineering. The technical content of the journal is scrutinized by the Editorial Board composed of experts from various disciplines of Metallurgy and Materials Engineering. Editorial Advisory Board provides valuable advice on technical matters related to the publication of Transactions.