F. Naya scite author profile

The development of the latest generation of wide-body passenger aircraft has heralded a new era in the utilisation of carbon-fibre composite materials. One of the primary challenges facing future development programmes is the desire to reduce the extent of physical testing, required as part of the certification process, by adopting a 'certification by simulation' approach. A hierarchical bottom-up multiscale simulation scheme can be an efficient approach that takes advantage of the natural separation of length scales between different entities 2 (fibre/matrix, ply, laminate and component) in composite structures. In this work, composites with various fibre/matrix and interlaminar interfacial properties were fabricated using an autoclave under curing pressures ranging from 0 to 0.8 MPa. The microstructure (mainly void content and spatial distribution) and the mechanical properties of the matrix and fibre/matrix interface were measured, the latter by means of nano-indentation tests in matrix pockets, and fibre push-in tests. In addition, the macroscopic interlaminar shear strength was determined by means of three-points bend tests on short beams. To understand the influence of interfacial properties on the intralaminar failure behaviour, a high-fidelity microscale computational model is presented to predict homogenized ply properties under shear loading. Predicted ply material parameters are then transferred to a mesoscale composite damage model to reveal the interaction between intralaminar and interlaminar damage behaviour of composite laminates.

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Computational micromechanics of fiber kinking in unidirectional FRP under different environmental conditions

Naya

Herráez

Lopes

et al. 2017

Composites Science and Technology

117

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Multiscale virtual testing: the roadmap to efficient design of composites for damage resistance and tolerance

et al. 2016

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F. Naya

Computational micromechanics of the transverse and shear behavior of unidirectional fiber reinforced polymers including environmental effects

Transverse cracking of cross-ply laminates: A computational micromechanics perspective

The role of interfacial properties on the intralaminar and interlaminar damage behaviour of unidirectional composite laminates: Experimental characterization and multiscale modelling

Computational micromechanics of fiber kinking in unidirectional FRP under different environmental conditions

Multiscale virtual testing: the roadmap to efficient design of composites for damage resistance and tolerance

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