Optimization of a Cruciform Specimen Geometry for the Identification of Constitutive Parameters Based Upon Full-Field Measurements

Bertin M. B. R.; Hild F.; Roux S.

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Optimization of a Cruciform Specimen Geometry for the Identification of Constitutive Parameters Based Upon Full-Field Measurements

机译：基于全场测量的用于识别本构参数的十字形试样几何优化

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A methodology is proposed to optimize a specimen shape in a biaxial testing machine for the identification of constitutive laws based on full-field measurements. Within the framework of finite element model updating and integrated digital image correlation, the covariance matrix of the identified material parameters due to acquisition noise is computed, and its minimization is the basis of the proposed shape optimization. Two models are investigated: first, a linear elastic law, and second, an elastoplastic law with linear kinematic hardening. Two optimal fillet radii sets are assessed for the two investigated laws based on the minimization of the identification uncertainty.

机译：提出了一种方法来优化双轴试验机中的试样形状，以基于全场测量来识别本构定律。在有限元模型更新和集成数字图像相关性的框架内，计算了由于采集噪声而识别出的材料参数的协方差矩阵，其最小化是所提出的形状优化的基础。研究了两种模型：第一，线性弹性定律，第二，具有线性运动硬化的弹塑性定律。基于识别不确定性的最小化，针对两个调查法则评估了两个最佳圆角半径集。

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《Strain》 |2016年第4期|共17页
作者
Bertin M. B. R.; Hild F.; Roux S.;
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原文格式 PDF
正文语种 eng
中图分类工程基础科学;
关键词
digital image correlation (DIC); finite element model updating (FEMU); full-field measurements; identification; integrated digital image correlation (IDIC); optimization;

机译：数字图像相关（DIC）;有限元模型更新（FEMU）;全场测量;识别;集成数字图像相关（IDIC）;优化;

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1. Optimization of a Cruciform Specimen Geometry for the Identification of Constitutive Parameters Based Upon Full-Field Measurements [J] . Bertin M. B. R., Hild F., Roux S. Strain . 2016,第4期

机译：基于全场测量的用于识别本构参数的十字形试样几何优化
2. General framework for the identification of constitutive parameters from full-field measurements in linear elasticity [J] . Avril S, Pierron F International Journal of Solids and Structures . 2007,第14a15期

机译：从线性弹性全场测量中识别本构参数的通用框架
3. A domain decomposition approach for full-field measurements based identification of local elastic parameters [J] . Lubineau Gilles, Moussawi Ali, Xu Jiangping, International Journal of Solids and Structures . 2015,第Null期

机译：基于全域测量的区域分解方法，用于识别局部弹性参数
4. Identification of Constitutive Parameters Governing the Hyperelastic Response of Rubber by Using Full-Field Measurement and the Virtual Fields Method [C] . A. Tayeb, J. -B. Le Cam, M. Grediac, SEM Annual Conference and Exposition on Experimental and Applied Mechanics . 2020

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5. Optimization of cruciform biaxial composite specimen. [D] . Gupte, Anup A. 2003

机译：十字形双轴复合材料试样的优化。
6. The Parameters Identification of High-Temperature Constitutive Model Based on Inverse Optimization Method and 3D Processing Map of Cr8 Alloy Steel [O] . Xuewen Chen, Tingting Lian, Bo Zhang, 2021

机译：基于逆优化方法和CR8合金钢三维处理地图的高温本构模型的参数识别
7. Optimization of a Cruciform Specimen Geometry for the Identification of Constitutive Parameters Based Upon Full-Field Measurements [O] . M. B. R. Bertin, F. Hild, S. Roux 2016

机译：基于全场测量的基于全场测量的鉴定鉴定坩埚样本几何的优化

Optimization of a Cruciform Specimen Geometry for the Identification of Constitutive Parameters Based Upon Full-Field Measurements

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