Extended Identification of Mechanical Parameters and Boundary Conditions by Digital Image Correlation

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• 作者：Roberto Fedele ; Roberta Santoro
• 关键词：Structural adhesives ; Cohesive crack model ; Digital Image Correlation ; Inverse Problems ; Parameter identification
• 刊名：Procedia IUTAM
• 出版年：2012
• 出版时间：2012
• 年：2012
• 卷：4
• 期：Complete
• 页码：40-47
• 全文大小：831 K

文摘

This paper represents a further contribution to the study of identification procedures for material mechanics resting on kinematic measurements provided by 2D Digital Image Correlation (DIC) at the microscale. Reference is made to non-conventional experiments on adhesively bonded assemblies industrially manufactured for aerospace applications. For calibration purposes a local approach is considered under plane stress conditions, focusing on a small sub-domain on the sample surface, in which mixed mode debonding is monitored. As a novelty, both the (cohesive) mechanical parameters of the interface and the actual boundary conditions prescribed at different time instants during the test are considered as unknowns to be estimated on the basis of full-field data. In this way, data smoothing and parameter identification procedures, so far usually performed in a sequence, are tackled simultaneously in a coupled framework. Since the inverse problem generalized as mentioned above turns out to be severely ill-posed, suitable regularizing provisions are applied, concerning the a priori regularity of (kinematic) displacement fields, from which boundary data are sampled, and the equilibrium (Neumann) conditions along the cracked part of the interface.