The increase in the number of structural applications of composite materials, especially in the aerospace and automotive industries, has led to a demand for robust models to simulate …
P Bussetta, N Correia - Composites Part A: Applied Science and …, 2018 - Elsevier
This article presents a survey of the literature about the numerical forming of continuous fibre reinforced composite material. This review shows that in spite of some models are defined …
B Liang, P Boisse - Chinese Journal of Aeronautics, 2021 - Elsevier
The forming of textile reinforcements is an important stage in the manufacturing of textile composite parts with Liquid Composite Molding process. Fiber orientations and part …
A Margossian, S Bel, R Hinterhoelzl - Composites Part A: Applied science …, 2015 - Elsevier
The quality of forming simulations based on Finite Element methods is mainly determined by the accuracy of the material properties. Out-of-plane bending is one of the deformation …
Different approaches for the simulation of wrinkling during forming of textile reinforcements are presented. It is shown that 3D finite element modeling requires the consideration of an …
This paper presents a simple code written in MATLAB for simulating and optimizing the draping of a composite material fabric onto a mold. Being simple and kinematically based …
Increasing demand for weight reduction and greater fuel efficiency continues to spur the use of composite materials in commercial aircraft structures. Subsequently, as composite …
T Deng, W Zhang, W Jiang, H Zhou, Z Huang, X Peng… - Materials & Design, 2021 - Elsevier
Solid-state thermo-stamping of fabric reinforced composites has attracted extensive attention for its efficiency and potential energy saving in recent years. In this paper, a hybrid …
The theoretical prediction of mechanical characteristics of multi-scale fibrous materials gains more and more importance because it helps to omit expensive experimental procedures, to …