Finite element models of natural fibers and their composites: A review
Finite element method has been widely applied in modeling natural fibers and natural fiber
reinforced composites. This paper is a comprehensive review of finite element models of …
reinforced composites. This paper is a comprehensive review of finite element models of …
Microwave-synthesized polysaccharide-derived carbon dots as therapeutic cargoes and toughening agents for elastomeric gels
Fluorescent carbon dots (CDs) play a versatile role in materials science. Herein, we have
developed alginate-derived nitrogen-doped CDs as a drug carrier and a toughening agent …
developed alginate-derived nitrogen-doped CDs as a drug carrier and a toughening agent …
Recent biomedical applications of coupling nanocomposite polymeric materials reinforced with variable carbon nanofillers
The hybridization between polymers and carbon materials is one of the most recent and
crucial study areas which abstracted more concern from scientists in the past few years …
crucial study areas which abstracted more concern from scientists in the past few years …
[HTML][HTML] Effect of adding carbon nanotubes on the thermal conductivity of steel fiber-reinforced concrete
A comprehensive analysis is performed to study the effect of adding carbon nanotubes
(CNTs) on the thermal conductivity of short steel fiber (SSF)-reinforced concrete. The role of …
(CNTs) on the thermal conductivity of short steel fiber (SSF)-reinforced concrete. The role of …
The effective thermal conductivity of coated/uncoated fiber-reinforced composites with different fiber arrangements
Fiber-reinforced composites are attractive for many applications in energy fields, such as
thermal energy storage and building energy-saving. In these applications, their effective …
thermal energy storage and building energy-saving. In these applications, their effective …
Finite element method with 3D polyhedron-octree for the analysis of heat conduction and thermal stresses in composite materials
L Wang, R Zhang, R Guo, G Liu - Composite Structures, 2024 - Elsevier
Applying the hybrid flux finite element method (HF-FEM) and hybrid thermal stress finite
element method (HTS-FEM) is not prevalent in analyzing heat conduction and thermal …
element method (HTS-FEM) is not prevalent in analyzing heat conduction and thermal …
Finite element analysis of natural fiber-reinforced polymer composites
Natural fibers, which are abundantly available in nature, and natural fiber-reinforced
polymeric products have been widely used in nonload-bearing structures in recent years …
polymeric products have been widely used in nonload-bearing structures in recent years …
Effect of fibre shape and interphase on the anisotropic viscoelastic response of fibre composites
Abstract We perform Monte Carlo analyses of the anisotropic viscoelastic response of
random RVEs representing the microstructure of UD fibre composites. Both fibres and matrix …
random RVEs representing the microstructure of UD fibre composites. Both fibres and matrix …
Influence of porosity on anisotropic thermal conductivity of SiC fiber reinforced SiC matrix composite: A microscopic modeling study
The effect of porosity on the effective thermal conductivities calculation for continuous SiC
fiber reinforced SiC matrix composites (SiC f/SiC) was studied in this work by finite element …
fiber reinforced SiC matrix composites (SiC f/SiC) was studied in this work by finite element …
Modelling and characterization of effective thermal conductivity of single hollow glass microsphere and its powder
Tiny hollow glass microsphere (HGM) can be applied for designing new light-weighted and
thermal-insulated composites as high strength core, owing to its hollow structure. However …
thermal-insulated composites as high strength core, owing to its hollow structure. However …