Full‐field optical measurements like digital image correlation or the grid method have brought a paradigm shift in the experimental mechanics community. While inverse identification techniques like finite element model updating or the virtual fields method have been the object of significant developments, current test methods, inherited from the age of strain gauges or linear variable displacement transducers, are generally not well adapted to the rich information provided by these new measurement tools. This paper provides a review of the research dealing with the design and optimization of heterogeneous mechanical tests for the identification of material parameters from full‐field measurements, christened here Material Testing 2.0 (MT2.0).

中文翻译：

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迈向材料测试2.0。用于从全场测量中识别本构参数的测试设计的回顾

全场光学测量（例如数字图像相关性或网格方法）在实验力学领域带来了范式转变。虽然逆向识别技术（例如有限元模型更新或虚拟场方法）已成为重大发展的目标，但从应变仪或线性可变位移传感器的年代继承而来的当前测试方法通常无法很好地适应由以下人员提供的丰富信息：这些新的测量工具。本文概述了有关设计和优化异类力学测试以从全场测量中识别材料参数的研究，这里将其命名为“材料测试2.0（MT2.0）”。