[HTML][HTML] Modeling of thermal expansion behavior of densely packed Al/SiC composites
In this paper the approach for finite element (FE) modeling and analysis of thermal
expansion behavior of densely packed Al/SiC composites is proposed. The coefficient of …
expansion behavior of densely packed Al/SiC composites is proposed. The coefficient of …
Nano TiB2 and TiO2 reinforced composites: a comparative investigation on strengthening mechanisms and predicting mechanical properties via neural network …
It is known that the interaction between suspended ceramic nanoparticles (TiB 2 and TiO 2)
in molten alloys affects the strengthening mechanisms of nanoparticle reinforced …
in molten alloys affects the strengthening mechanisms of nanoparticle reinforced …
Fracture behavior of metal oxide/silver nanowire composite electrodes under cyclic bending
The mechanical responses under cyclic bending of Ag nanowire composite electrodes
coated with various metal oxide films of different thicknesses were explored, in an attempt to …
coated with various metal oxide films of different thicknesses were explored, in an attempt to …
Carbon nanotubes for space and bio-engineering applications
Since the last decade, most research focus in the fields of science and engineering has
been dramatically shifted toward the same fashion from the investigation of traditional …
been dramatically shifted toward the same fashion from the investigation of traditional …
XPS and DFT study of Sn incorporation into ZnO and TiO2 host matrices by pulsed ion implantation
Bulk and thin‐film ZnO and TiO2 samples were doped with Sn by pulsed ion implantation
and studied by means of X‐ray photoelectron core‐level and valence‐band spectroscopy as …
and studied by means of X‐ray photoelectron core‐level and valence‐band spectroscopy as …
3D micromechanical analysis of thermo-mechanical behavior of Al2O3/Al metal matrix composites
In this paper an elastoplastic finite element model for studying the thermomechanical
behavior of Al/Al 2 O 3 particulate composites is proposed. 3D representative volume …
behavior of Al/Al 2 O 3 particulate composites is proposed. 3D representative volume …
Experimental characterization and numerical modeling of thermo-mechanical properties of Al-B4C composites
This paper deals with the fabrication and characterization of thermo-mechanical properties
of boron carbide reinforced aluminum matrix composites. The effective elastic moduli and …
of boron carbide reinforced aluminum matrix composites. The effective elastic moduli and …
Evaluation of effective elastic properties of 3D printable interpenetrating phase composites using the meshfree radial point interpolation method
L Ai, XL Gao - Mechanics of Advanced Materials and Structures, 2018 - Taylor & Francis
Interpenetrating phase composites (IPCs) have recently been fabricated using three-
dimensional (3D) printing methods. In a two-phase IPC, the two phases are topologically …
dimensional (3D) printing methods. In a two-phase IPC, the two phases are topologically …
Thermal expansion behavior of Ni–Al2O3 composites with particulate and interpenetrating phase structures: An analysis using finite element method
The thermal expansion behavior of Ni–Al 2 O 3 composites was investigated up to 700° C
using object-oriented finite-element method (OOF). Composites having particulate structure …
using object-oriented finite-element method (OOF). Composites having particulate structure …
Multi-scale finite element analysis of the strengthening and damage behavior of carbides with different characteristics in nickel-based superalloys
Q Wang, F Liu, J Song, Y Kang, Y Wu, D Wang… - Composite …, 2025 - Elsevier
This study proposes a novel multi-scale numerical approach to explore the mechanical
behavior and damage evolution in nickel (Ni)-based superalloys containing various carbide …
behavior and damage evolution in nickel (Ni)-based superalloys containing various carbide …