Buckling analysis of piezoelectric cylindrical composite panels reinforced with carbon nanotubes
The current article analyses the buckling response of piezoelectric cylindrical composite
panels reinforced with carbon nano-tubes subjected to axial load. Classical laminated plate …
panels reinforced with carbon nano-tubes subjected to axial load. Classical laminated plate …
Free vibration of size and temperature‐dependent carbon nanotube (CNT)‐reinforced composite nanoplates with CNT agglomeration
Free vibration analysis of size‐dependent carbon nanotube‐reinforced composite (CNTRC)
nanoplates, resting on the visco‐Pasternak foundation is studied. The Mori–Tanaka …
nanoplates, resting on the visco‐Pasternak foundation is studied. The Mori–Tanaka …
[HTML][HTML] Time-dependent creep analysis of ultra-high-temperature functionally graded rotating disks of variable thickness
Functionally graded materials (FGMs) are high temperature-resistant materials that can
simultaneously maintain metallic tenacity and anti-corrosive properties. Nevertheless, using …
simultaneously maintain metallic tenacity and anti-corrosive properties. Nevertheless, using …
Time-dependent thermomechanical creep behavior of FGM thick hollow cylindrical shells under non-uniform internal pressure
In this paper, a theoretical solution for time-dependent thermo-elastic creep analysis of a
functionally graded (FG) thick-walled cylinder based on the first-order shear deformation …
functionally graded (FG) thick-walled cylinder based on the first-order shear deformation …
Thermomechanical creep analysis of FGM thick cylindrical pressure vessels with variable thickness
In the present study, a theoretical solution for thermomechanical creep analysis of
functionally graded (FG) thick cylindrical pressure vessel with variable thickness based on …
functionally graded (FG) thick cylindrical pressure vessel with variable thickness based on …
Time dependent creep analysis in thick FGM rotating disk with two-dimensional pattern of heterogeneity
H Zharfi, H EkhteraeiToussi - International Journal of Mechanical Sciences, 2018 - Elsevier
Combining a novel modeling algorithm and Generalized Differential Quadrature (GDQ)
solution method of differential equations, a time depended creep analysis is performed for a …
solution method of differential equations, a time depended creep analysis is performed for a …
A new creep constitutive relationship for high temperature alloys
M Huo, Y Yu, R **a, J Xu - International Journal of Mechanical Sciences, 2021 - Elsevier
From experimental creep rates of high temperature alloys, it is found they can be classified
into three types: with creep rate decreasing only, with creep rate deceasing firstly but …
into three types: with creep rate decreasing only, with creep rate deceasing firstly but …
The buckling behavior of vacuum-infused open-hole unidirectional basalt-fiber composites experimental and numerical investigations
Basalt-fiber-reinforced epoxy (BFRE) composite laminates fabricated using the vacuum
infusion process were subjected to axial compression to assess their buckling behavior. The …
infusion process were subjected to axial compression to assess their buckling behavior. The …
Creep behavior of latania natural fiber‐reinforced epoxy composites at elevated temperatures
Unique properties of natural fibers have made them strong sustainable materials in
reinforcing composites. Latania natural fibers, recently compared to jute natural fibers, have …
reinforcing composites. Latania natural fibers, recently compared to jute natural fibers, have …
[HTML][HTML] Creep relaxation in FGM rotating disc with nonlinear axisymmetric distribution of heterogeneity
H Zharfi - Theoretical and Applied Mechanics Letters, 2019 - Elsevier
Rotating discs are the vital part of many types of machineries. Usually there is a tendency to
make use of them in higher rotational speeds, but ahead of their complete break down the …
make use of them in higher rotational speeds, but ahead of their complete break down the …