Aspects of computational homogenization at finite deformations: a unifying review from Reuss' to Voigt's bound
The objective of this contribution is to present a unifying review on strain-driven
computational homogenization at finite strains, thereby elaborating on computational …
computational homogenization at finite strains, thereby elaborating on computational …
Homogenization of composites with extended general interfaces: comprehensive review and unified modeling
Interphase regions that form in heterogeneous materials through various underlying
mechanisms such as poor mechanical or chemical adherence, roughness, and coating, play …
mechanisms such as poor mechanical or chemical adherence, roughness, and coating, play …
[图书][B] Graphene science handbook, six-volume set
Graphene is the strongest material ever studied and can be an efficient substitute for silicon.
This six-volume handbook focuses on fabrication methods, nanostructure and atomic …
This six-volume handbook focuses on fabrication methods, nanostructure and atomic …
Bending analysis of carbon nanotube coated–fiber multi-scale composite beams using the refined zigzag theory
R Malekimoghadam, SA Hosseini, U Icardi - Aerospace Science and …, 2023 - Elsevier
The present work aims to investigate the bending analysis of sandwich and laminated
carbon nanotube coated–fiber multi-scale composite (CFMC) beams employing the Refined …
carbon nanotube coated–fiber multi-scale composite (CFMC) beams employing the Refined …
[HTML][HTML] Effect of carbon nanotube waviness on the effective thermoelastic properties of a novel continuous fuzzy fiber reinforced composite
SI Kundalwal, MC Ray - Composites Part B: Engineering, 2014 - Elsevier
This paper deals with the investigation of the effect of carbon nanotube (CNT) waviness on
the effective coefficient of thermal expansion (CTE) of a novel continuous fuzzy fiber …
the effective coefficient of thermal expansion (CTE) of a novel continuous fuzzy fiber …
Generalized interfacial energy and size effects in composites
The objective of this contribution is to explain the size effect in composites due to the
interfacial energy between the constituents of the underlying microstructure. The …
interfacial energy between the constituents of the underlying microstructure. The …
[HTML][HTML] Prediction of mechanical properties of carbon nanotube‒carbon fiber reinforced hybrid composites using multi-scale finite element modelling
R Malekimoghadam, U Icardi - Composites Part B: Engineering, 2019 - Elsevier
The mechanical properties of unidirectional carbon nanotube (CNT)‒carbon fiber (CF)
reinforced hybrid composites are scrutinized. Due to lack of comprehensive model, a 3D …
reinforced hybrid composites are scrutinized. Due to lack of comprehensive model, a 3D …
PH-net: Parallelepiped microstructure homogenization via 3d convolutional neural networks
Microstructures are attracting academic and industrial interest because of the rapid
development of additive manufacturing. The numerical homogenization method has been …
development of additive manufacturing. The numerical homogenization method has been …
[HTML][HTML] Nanostructured interfaces for enhancing mechanical properties of composites: Computational micromechanical studies
L Mishnaevsky Jr - Composites Part B: Engineering, 2015 - Elsevier
Computational micromechanical studies of the effect of nanostructuring and
nanoengineering of interfaces, phase and grain boundaries of materials on the mechanical …
nanoengineering of interfaces, phase and grain boundaries of materials on the mechanical …
Predicting mechanical properties of fuzzy fiber reinforced composites: radially grown carbon nanotubes on the carbon fiber
R Rafiee, A Ghorbanhosseini - … Journal of Mechanics and Materials in …, 2018 - Springer
It is intended to predict mechanical properties of fuzzy fiber reinforced polymer. An
appropriate computational modeling is developed on the basis of bottom-up modeling …
appropriate computational modeling is developed on the basis of bottom-up modeling …