Eventos Anais de eventos
MECSOL 2019
7th International Symposium on Solid Mechanics
Layup Optimization of CFRP Prosthetic Tubes Using ANN and Tsai-Wu Criterion
Submission Author:
Camila Diniz , MG
Co-Authors:
Camila Diniz, Guilherme Ferreira Gomes, Sebastião Simoes Cunha Jr, Antonio Ancelotti
Presenter: Camila Diniz
doi://10.26678/ABCM.MECSOL2019.MSL19-0014
Abstract
The use of composite materials has increased lately and the need to know the behavior of these materials is very important once these devices are subjects to suffer from damage as cracks and delamination. Normally, to analyze failure problems in composite materials, the following steps are necessary: i) structure geometry design, ii) numerical and/or experimental analysis and iii) use of failure criteria (Tsai-Wu criterion). If the used composite material has a non-expected failure criterion, the procedure must be repeated. In order to eliminate the procedure above, this study proposes the use of an Artificial Neural Networks (ANN) inversion which can be used to determine an adequate configuration for the layers of the composite material from the desired failure criteria value. Numerical simulations, based on the Finite Element Method (FEM), were made in order to create a database for ANN training and validation. After the inversion of the ANN, satisfactory results were obtained and this procedure could be used to minimize the high number of numerical simulations normally used in the design of a composite device.
Keywords
Artificial neural networks, Composite Materials, Tsai-Wu Failure Criterion structural, structural optimization, safety margin
