Gleeble-based Johnson–Cook parametric identification of AISI 9310 steel empowered by computational intelligence
This research aims to establish a systematic framework for parametric identification of
materials undergoing high temperatures and high strain rates. While advanced testing …
materials undergoing high temperatures and high strain rates. While advanced testing …
A Combined Experimental and Numerical Calibration Approach for Modeling the Performance of Aerospace-Grade Titanium Alloy Products
V Tuninetti, H Sepúlveda, C Beecher, C Rojas-Ulloa… - Aerospace, 2024 - mdpi.com
Finite element modeling for designing and optimizing lightweight titanium aerospace
components requires advanced simulation tools with adequate material modeling. In this …
components requires advanced simulation tools with adequate material modeling. In this …
Toward clean manufacturing: an analysis and validation of a modified Johnson–Cook material model for low and high-speed orthogonal machining of low-carbon …
In this research, sustainable machining of the aluminum alloy (Al 6061-T6) is considered.
Aluminum is a durable and infinitely recyclable material as well as light in density, causing …
Aluminum is a durable and infinitely recyclable material as well as light in density, causing …
Numerical and experimental prediction of erosion in dental implants during dry micro-blasting process
Micro-blasting is a general process for surface treatment of engineering components such
as gears, dental implants, and screws. These components are put under solid particle …
as gears, dental implants, and screws. These components are put under solid particle …
A Data-Driven Approach for Cutting Force Prediction in FEM Machining Simulations Using Gradient Boosted Machines
T Reeber, J Wolf, HC Möhring - Journal of Manufacturing and Materials …, 2024 - mdpi.com
Cutting simulations via the Finite Element Method (FEM) have recently gained more
significance due to ever increasing computational performance and thus better resulting …
significance due to ever increasing computational performance and thus better resulting …
Hydrogen susceptibility of Al 5083 under ultra-high strain rate ballistic loading
The effect of hydrogen on the ballistic performance of aluminum (Al) 5083H131 was
examined both experimentally and numerically in this study. Ballistics tests were conducted …
examined both experimentally and numerically in this study. Ballistics tests were conducted …
Comparative Analysis of Three Constitutive Models and Microstructure Characteristics of Nb521 during Hot Deformation
B Zhu, M Jia, R Zhao, M Wan - Crystals, 2023 - mdpi.com
This study presents an exploration of the flow stress constitutive model and the deformation
mechanism of Nb521, both critical for its practical application. Hot-compression experiments …
mechanism of Nb521, both critical for its practical application. Hot-compression experiments …
Experimental and numerical prediction of multiple solid particle erosion during a dry micro-blasting process of dental titanium alloy by angular particles based on …
AS Khoddami, MAN Jahroodi, D Salimi-Majd… - 2023 - researchsquare.com
Micro-blasting is a general process for surface treatment of engineering components such
as gears, dental implants, and screws. These components are put under solid particle …
as gears, dental implants, and screws. These components are put under solid particle …