Identification of Material Constants for Composite Materials Using a Sensitivity-Based Multi-Level Optimization Method
Ching Wen Liu, Tai Yan Kam

TL;DR
This paper introduces a new method to identify material constants in composite structures using a sensitivity-based multi-level optimization approach.
Contribution
The novel contribution is a multi-level optimization method that uses natural frequency sensitivity to efficiently identify material constants.
Findings
The method reduces the number of design variables at each optimization level to simplify the solution process.
The proposed method was validated through numerical and experimental examples on composite plates.
The coefficient of variation is used as an acceptance criterion to determine accurate material constants.
Abstract
Composite materials have been widely used to fabricate highly reliable composite structures. Since the material constants of the composite structures are important parameters for the reliability assessment of the structures, it is thus desired to have an efficient and effective technique to determine the actual material constants of the constituent materials. In this paper, a novel sensitivity-based multi-level optimization method, which is composed of several level-wise optimization stages, is presented to identify the actual material constants of structures using measured natural frequencies. In the proposed method, the natural frequency sensitivity information for a structure is used to establish the objective functions and conduct the selection of appropriate design variables at different optimization levels. In each level-wise optimization, the number of design variables is…
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Taxonomy
TopicsStructural Health Monitoring Techniques · Acoustic Wave Phenomena Research · Composite Structure Analysis and Optimization
