In the present paper, a computational model for brittle-matrix fibre-reinforced composite (FRC) materials is discussed. The main mechanical phenomena involved, such as matrix cracking, fibre orientation effect, fibre debonding and failure, and fibre–fibre interaction, are modelled by taking into account the micromechanical behaviour of such a class of materials. The developed mechanical model is implemented through a computational approach in the context of the finite element method. The proposed approach seems to be very effective making use of typical mechanical quantities related to the FRC materials (fibre content, strength, orientation, etc.). The results obtained provide useful information on the state of the composite, such as the matrix crack pattern, the effectiveness fibre content, the sliding function, the fibre length at failure.
A computational approach to evaluate the mechanical influence of fibres on brittle-matrix composite materials / BRIGHENTI, Roberto; CARPINTERI, Andrea; SCORZA, Daniela. - In: COMPUTATIONAL MATERIALS SCIENCE. - ISSN 0927-0256. - 64:(2012), pp. 212-215. [10.1016/j.commatsci.2012.01.032]
A computational approach to evaluate the mechanical influence of fibres on brittle-matrix composite materials
BRIGHENTI, Roberto;
2012
Abstract
In the present paper, a computational model for brittle-matrix fibre-reinforced composite (FRC) materials is discussed. The main mechanical phenomena involved, such as matrix cracking, fibre orientation effect, fibre debonding and failure, and fibre–fibre interaction, are modelled by taking into account the micromechanical behaviour of such a class of materials. The developed mechanical model is implemented through a computational approach in the context of the finite element method. The proposed approach seems to be very effective making use of typical mechanical quantities related to the FRC materials (fibre content, strength, orientation, etc.). The results obtained provide useful information on the state of the composite, such as the matrix crack pattern, the effectiveness fibre content, the sliding function, the fibre length at failure.File | Dimensione | Formato | |
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