A review on the strain rate dependency of the dynamic viscoplastic response of FCC metals
The response of structures and materials subject to impulsive loads remains a field of
intense research. The dynamic loading and temperature increase affect the material's …
intense research. The dynamic loading and temperature increase affect the material's …
An elastoplastic mechanical-thermal model for temperature rise simulation of two-dimensional triaxially braided composites under quasi-static loads
An elastoplastic mechanical-thermal model is proposed and applied to the mesoscale finite
element simulation to investigate the temperature rise phenomena of braided composite …
element simulation to investigate the temperature rise phenomena of braided composite …
A machining-based methodology to identify material constitutive law for finite element simulation
The success and reliability of any finite element modeling (FEM) depends strongly on the
constitutive law which describes the thermo-mechanical behavior of the machined materials …
constitutive law which describes the thermo-mechanical behavior of the machined materials …
Effect of rake angle-based Johnson-Cook material constants on the prediction of residual stresses and temperatures induced in Al2024-T3 machining
Nowadays finite element modeling (FEM) has become a vital and irreplaceable simulation
tool in studying the machining processes. The machining simulation results depend strongly …
tool in studying the machining processes. The machining simulation results depend strongly …
An experimental investigation on the deformation behaviour of recycled aluminium alloy AA6061 undergoing finite strain deformation
Finite strain deformation behaviour of recycled aluminium alloy AA6061 is investigated in
this paper via uniaxial tensile test and Taylor cylinder impact test implementations. The …
this paper via uniaxial tensile test and Taylor cylinder impact test implementations. The …
Combined experimental and numerical analysis of bulge test at high strain rates using split Hopkinson pressure bar apparatus
High strain rate bulge test technique which is introduced in this paper adopts a rubber-pad
as pressure carrying medium to bulge a sheet metal at high velocity using split Hopkinson …
as pressure carrying medium to bulge a sheet metal at high velocity using split Hopkinson …
Effect of rake angle on Johnson-Cook material constants and their impact on cutting process parameters of Al2024-T3 alloy machining simulation
Finite element modeling (FEM) of machining has recently become the most attractive
computational tool to predict and optimize metal cutting processes. High-speed computers …
computational tool to predict and optimize metal cutting processes. High-speed computers …
Modelling of dynamic behaviour of orthotropic metals including damage and failure
A physically based material model for metals, with elastic–plastic and damage/failure
orthotropy is proposed in this paper. The model is defined within the frameworks of …
orthotropy is proposed in this paper. The model is defined within the frameworks of …
Design and optimisation of hybrid material bumper beams under impact loading
İ Öztürk - International journal of crashworthiness, 2022 - Taylor & Francis
In this study, the crashworthiness performance of three homogeneous sheet metal beams
(AA6061-T6, AA2024-T351, and DP 800) and six hybrid sheet metal beams designed by …
(AA6061-T6, AA2024-T351, and DP 800) and six hybrid sheet metal beams designed by …
Characterization of anisotropic damage behaviour of recycled aluminium alloys AA6061 undergoing high velocity impact
It is impossible to ignore the realm of the topics related recycling aluminium scraps. The
recycled form of this material can be a good replacement for the primary resources due to …
recycled form of this material can be a good replacement for the primary resources due to …