Applicability of correlated digital image correlation and infrared thermography for measuring mesomechanical deformation in foams and auxetics

Q1 Mathematics

GAMM Mitteilungen Pub Date : 2022-06-20 DOI:10.1002/gamm.202200014

Sergej Grednev, Stefan Bronder, Francesco Kunz, Martin Reis, Susanne-Marie Kirsch, Felix Welsch, Stefan Seelecke, Stefan Diebels, Anne Jung

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引用次数: 1

Abstract

Cellular materials such as metal foams or auxetic metamaterials are interesting microheterogeneous materials used for lightweight construction and as energy absorbers. Their macroscopic behavior is related to their specific mesoscopic deformation by a strong structure-property-relationship. Digital image correlation and infrared thermography are two methods to visualize and study the local deformation behavior in materials. The present study deals with the full-field thermomechanical analysis of the mesomechanical deformation in Ni/PU hybrid foams and Ni/polymer hybrid auxetic structures performing a correlative digital image correlation and infrared thermography. Instead of comparing and correlating only the primary output variables of both methods, strain and temperature, also strain rates and temperature rates occurring during deformation were compared. These allow for a better correlation and more conclusive results than obtained using only the primary output variables.

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相关数字图像相关和红外热成像在测量泡沫和助剂细观力学变形中的适用性

蜂窝材料，如金属泡沫或auxetic超材料是有趣的微非均质材料，用于轻量化结构和能量吸收。它们的宏观行为与特定的细观变形有很强的结构-性能关系。数字图像相关和红外热成像是可视化和研究材料局部变形行为的两种方法。采用相关的数字图像相关和红外热成像技术，对Ni/PU杂化泡沫和Ni/聚合物杂化结构的细观力学变形进行了现场热力学分析。除了比较和关联两种方法的主要输出变量应变和温度，还比较了变形过程中发生的应变率和温度率。与仅使用主要输出变量相比，这允许更好的相关性和更结论性的结果。

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

GAMM Mitteilungen Mathematics-Applied Mathematics

CiteScore

8.80

自引率

0.00%

发文量