Artificial intelligence is widely employed in metallurgy for its ability to solve complex phenomena, which are associated with the learning process of previously obtained experimental data. Although numerous physical modeling techniques have been implemented for the prediction of mechanical strength using equations, several empirical efforts are necessitated to evaluate specific constants for different models. To address this issue, numerous recent studies have employed artificial neural networks for the prediction of mechanical properties based on the material composition and process conditions; however, majority of these works have been limited applications due to the extensive number of input parameter combinations of chemical compositio...
ABSTRACT: In this study, the Vickers microhardness profile of ferritic and aus-tenitic functionally ...
The ability of a metal to be subjected to forming processes depends mainly on its plastic behavior a...
Nanostructured bainitic steel has an extraordinary ultrahigh strength of about 2.0 GPa along with go...
An artificial neural network (ANN) model was developed to predict the tensile properties of dual-pha...
Mechanical properties of ductile cast iron (DI) depend on its microstructure, which is influenced ...
One of the fields where it is possible to exploit neural networks is predicting the mechanical prope...
Multi-phase metallic materials such as Advanced High-Strength Steels (AHSS) are of great importance ...
Microstructures in steel can be understood as hierarchical structures holding information on various...
The article presents a computational model build with the use of artificial neural networks optimize...
There have been many attempts in the past to reduce the variety of steels produced without compromis...
Artificial intelligence in material science has attracted many attention in 4.0 industrial revolutio...
Analyzing the structural integrity of ferritic steel structures subjected to large temperature varia...
High-strength low-alloy (HSLA) steels provide increased strength-to-weight ratios over conventional ...
Accurately predicting properties of steels containing martensite by using models based on traditiona...
Steel is the most important material and it has several applications, and positions second to cement...
ABSTRACT: In this study, the Vickers microhardness profile of ferritic and aus-tenitic functionally ...
The ability of a metal to be subjected to forming processes depends mainly on its plastic behavior a...
Nanostructured bainitic steel has an extraordinary ultrahigh strength of about 2.0 GPa along with go...
An artificial neural network (ANN) model was developed to predict the tensile properties of dual-pha...
Mechanical properties of ductile cast iron (DI) depend on its microstructure, which is influenced ...
One of the fields where it is possible to exploit neural networks is predicting the mechanical prope...
Multi-phase metallic materials such as Advanced High-Strength Steels (AHSS) are of great importance ...
Microstructures in steel can be understood as hierarchical structures holding information on various...
The article presents a computational model build with the use of artificial neural networks optimize...
There have been many attempts in the past to reduce the variety of steels produced without compromis...
Artificial intelligence in material science has attracted many attention in 4.0 industrial revolutio...
Analyzing the structural integrity of ferritic steel structures subjected to large temperature varia...
High-strength low-alloy (HSLA) steels provide increased strength-to-weight ratios over conventional ...
Accurately predicting properties of steels containing martensite by using models based on traditiona...
Steel is the most important material and it has several applications, and positions second to cement...
ABSTRACT: In this study, the Vickers microhardness profile of ferritic and aus-tenitic functionally ...
The ability of a metal to be subjected to forming processes depends mainly on its plastic behavior a...
Nanostructured bainitic steel has an extraordinary ultrahigh strength of about 2.0 GPa along with go...