In this paper an Artificial Intelligent approach that performs materials' tests and evaluates their properties based on Neural Networks is presented. Wide ranges from rigid and non-rigid to very limp materials are used as test samples for the compression and extension tests. A Robot as well as a universal testing machine are used for extension (for non-rigid materials) and compression (for rigid materials only) tests under variable temperatures and strain rate conditions. Destructive and non-destructive approaches are followed. The evaluation of the measured forces and the prediction of the materials' properties are based on Artificial Neural Networks that have been previously trained according the experts’ knowledge. The materials properti...
The main objectives of this paper are investigations on the usability of artificial neuronal network...
The rheological behaviour of mild steel subjected to hot forming was modelled through a parallel dis...
AbstractTensile testing, also known as tension testing is a fundamental material technology test in ...
In this paper an Artificial Intelligent approach that performs materials' tests and evaluates their ...
In this paper we show some different concepts for the use of Artificial Neural Networks [1-4] in mod...
AbstractThe structural durability design of components requires the knowledge of cyclic material pro...
In the following research, a systematic approach is developed to generate an experiment-based perfor...
Machine learning enables computers to learn without being explicitly programmed. This paper outlines...
The structural durability design of components requires the knowledge of cyclic material properties....
The general aim is the characterization of microstructural states and the determination of mechanica...
The article is devoted to the development of machine learning methods for classes of technical probl...
An approach to intelligent evaluation of residual flexural strength of glass fiber reinforced plasti...
Abstract: The aim of this paper is to introduce a method to forecast the mechanical properties of a ...
International audienceMachine Learning methods and, in particular, Artificial Neural Networks (ANNs)...
The testing procedure in order to determine the precise mechanical testing results in Marshall desig...
The main objectives of this paper are investigations on the usability of artificial neuronal network...
The rheological behaviour of mild steel subjected to hot forming was modelled through a parallel dis...
AbstractTensile testing, also known as tension testing is a fundamental material technology test in ...
In this paper an Artificial Intelligent approach that performs materials' tests and evaluates their ...
In this paper we show some different concepts for the use of Artificial Neural Networks [1-4] in mod...
AbstractThe structural durability design of components requires the knowledge of cyclic material pro...
In the following research, a systematic approach is developed to generate an experiment-based perfor...
Machine learning enables computers to learn without being explicitly programmed. This paper outlines...
The structural durability design of components requires the knowledge of cyclic material properties....
The general aim is the characterization of microstructural states and the determination of mechanica...
The article is devoted to the development of machine learning methods for classes of technical probl...
An approach to intelligent evaluation of residual flexural strength of glass fiber reinforced plasti...
Abstract: The aim of this paper is to introduce a method to forecast the mechanical properties of a ...
International audienceMachine Learning methods and, in particular, Artificial Neural Networks (ANNs)...
The testing procedure in order to determine the precise mechanical testing results in Marshall desig...
The main objectives of this paper are investigations on the usability of artificial neuronal network...
The rheological behaviour of mild steel subjected to hot forming was modelled through a parallel dis...
AbstractTensile testing, also known as tension testing is a fundamental material technology test in ...