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An integrated computational materials engineering framework to analyze the failure behaviors of carbon fiber reinforced polymer composites for lightweight vehicle …
A bottom-up multi-scale modeling approach is used to develop an Integrated Computational
Materials Engineering (ICME) framework for carbon fiber reinforced polymer (CFRP) …
Materials Engineering (ICME) framework for carbon fiber reinforced polymer (CFRP) …
[HTML][HTML] Experimental and computational analysis of structure-property relationship in carbon fiber reinforced polymer composites fabricated by selective laser …
A fundamental understanding of structure-property relationship of carbon fiber reinforced
polymer (CFRP) composites fabricated by selective laser sintering (SLS) is essential to …
polymer (CFRP) composites fabricated by selective laser sintering (SLS) is essential to …
Mechanical Recycling of Carbon Fiber-Reinforced Polymer in a Circular Economy
This review thoroughly investigates the mechanical recycling of carbon fiber-reinforced
polymer composites (CFRPCs), a critical area for sustainable material management. With …
polymer composites (CFRPCs), a critical area for sustainable material management. With …
[HTML][HTML] Mechanisms of notch insensitivity in long-fiber discontinuous, prepreg platelet compression molded composites
The present treatise offers an investigation into the operative mechanisms of stress
redistribution and notch insensitivity of the prepreg-based, long-fiber discontinuous …
redistribution and notch insensitivity of the prepreg-based, long-fiber discontinuous …
In-situ effect in cross-ply laminates under various loading conditions analyzed with hybrid macro/micro-scale computational models
In this work, multi-scale finite element analyses based on three-dimensional (3D) hybrid
macro/micro-scale computational models subjected to various loading conditions are carried …
macro/micro-scale computational models subjected to various loading conditions are carried …
Multiscale fatigue life prediction model for CFRP laminates considering the mechanical degradation of its constituents and the local stress concentration of the matrix
In the present research, a novel approach for predicting the fatigue life of composites is
proposed using a multiscale fatigue model. This model considers two critical physical …
proposed using a multiscale fatigue model. This model considers two critical physical …
Carbon Hybrid Materials—Design, Manufacturing, and Applications
Carbon nanotubes (CNTs) have extraordinary properties and are used for applications in
various fields of engineering and research. Due to their unique combination of properties …
various fields of engineering and research. Due to their unique combination of properties …
Fatigue life prediction method for central hole of needled ceramic matrix composite
G Hou, DG Shang, LX Zuo, LF Qu, M **a, SD Wu… - Ceramics …, 2022 - Elsevier
Based on the consideration of matrix porosity and representative volume element of needled
structure, the macroscopic elastic constants of needled C/SiC ceramic matrix composite and …
structure, the macroscopic elastic constants of needled C/SiC ceramic matrix composite and …
Computational micromechanics model based failure criteria for chopped carbon fiber sheet molding compound composites
Chopped carbon fiber sheet molding compound has a great potential in lightweight
automotive, marine, and aerospace applications. One of the most challenging tasks is to …
automotive, marine, and aerospace applications. One of the most challenging tasks is to …
Experimental and computational analysis of bending fatigue failure in chopped carbon fiber chip reinforced composites
With a better balance among good mechanical performance, high freedom of design, and
low material and manufacturing cost, chopped carbon fiber chip reinforced sheet molding …
low material and manufacturing cost, chopped carbon fiber chip reinforced sheet molding …