Add to ORKGIn this paper, a stochastic morphological modelling framework previously developed for tension is further developed to predict flexural properties of Carbon Fibre Reinforced Thermoplastic Sheet Moulding Compound (CFRTP-SMC). The flexural modulus is predicted using a Monte Carlo simulation and classical laminate theory, and the flexural strength is predicted by using Weibull theory which accounts for fibre discontinuities. The results are validated against the experimental results from the Takahashi Lab of the University of Tokyo. The model will enable rapid designs of CFRTP-SMC structures with less testing, leading to potential cost reduction in structural applications
MEng (Mechanical Engineering), North-West University, Potchefstroom CampusFused filament fabrication...
High performance composites usually consist of continuous fibres and a thermoset matrix. A well-know...
This paper presents a new micromechanical model for the prediction of the tensile modulus and streng...
A stochastic morphological modelling framework has been established to predict the tensile behaviour...
A non-deterministic multiscale methodology is proposed to predict variability in longitudinal tensil...
A need for light-weighting in the automotive industry is leading to more widespread adoption of comp...
Fibre reinforced polymer (FRP) composites have been increasingly used worldwide in the strengthening...
The Young modulus and tensile strength of flax fibre reinforced polypropylene were determined and co...
Composite materials have recently been of particular interest to the automotive industry due to thei...
Advanced non-linear Finite Element models for the strength prediction of composite laminates normall...
Its high-specific strength and stiffness with lower cost make discontinuous fiber-reinforced thermop...
In the last decade, Carbon Fibre Sheet Moulding Compounds (CF-SMCs) have gained the interest of both...
A main challenge in design with long discontinuous fibre-based sheet moulding compound (SMC) is to u...
Copyright © 2015 by SAGE PublicationsThe use of discontinuous carbon fibre plastics (DCFP) in automo...
Fused filament fabrication (FFF) is a rapidly growing 3D printing technology in which molten plastic...
MEng (Mechanical Engineering), North-West University, Potchefstroom CampusFused filament fabrication...
High performance composites usually consist of continuous fibres and a thermoset matrix. A well-know...
This paper presents a new micromechanical model for the prediction of the tensile modulus and streng...
A stochastic morphological modelling framework has been established to predict the tensile behaviour...
A non-deterministic multiscale methodology is proposed to predict variability in longitudinal tensil...
A need for light-weighting in the automotive industry is leading to more widespread adoption of comp...
Fibre reinforced polymer (FRP) composites have been increasingly used worldwide in the strengthening...
The Young modulus and tensile strength of flax fibre reinforced polypropylene were determined and co...
Composite materials have recently been of particular interest to the automotive industry due to thei...
Advanced non-linear Finite Element models for the strength prediction of composite laminates normall...
Its high-specific strength and stiffness with lower cost make discontinuous fiber-reinforced thermop...
In the last decade, Carbon Fibre Sheet Moulding Compounds (CF-SMCs) have gained the interest of both...
A main challenge in design with long discontinuous fibre-based sheet moulding compound (SMC) is to u...
Copyright © 2015 by SAGE PublicationsThe use of discontinuous carbon fibre plastics (DCFP) in automo...
Fused filament fabrication (FFF) is a rapidly growing 3D printing technology in which molten plastic...
MEng (Mechanical Engineering), North-West University, Potchefstroom CampusFused filament fabrication...
High performance composites usually consist of continuous fibres and a thermoset matrix. A well-know...
This paper presents a new micromechanical model for the prediction of the tensile modulus and streng...