Add to ORKGAbstract: The aim of this paper is to introduce a method to reduce the weight in structures which are subjected to multiple restrictions like deformation, max allowable stress, natural frequency, etc…. The method is shown through the analysis of an aluminum bracket, whose maximum stress and deformation is well defined. The analysis is done using the Structural and Design of Experiments modules of Ansys Workbench v12.1. As result of the method a weight reduction of 50,2 % is achieved. 1
A design procedure incorporating a genetic algorithm is developed for discrete optimization of three...
Conventional methods are not simple or are close to impossible to be used to fabricate topology opti...
A design procedure incorporating a simple genetic algorithm (GA) is developed for discrete optimizat...
[EN] The aim of this paper is to introduce a method to reduce the weight in structures which are sub...
In this study, an attempt is made to minimize the weight of Howe roof and ten member-6 Node trusses,...
This article deals with optimization of the truss structure. A genetic algorithm is used for this op...
The paper deals with the design optimization of a bracket with Finite Element Analysis using ANSYS s...
A design procedure is presented incorporating a genetic algorithm for framed structures composed of ...
In any manufacturing process, product quality and cost are the two critical, essential factors that ...
This article describes the implementation of SGA (simple genetic algorithm) and PGA (parametric gene...
This paper represents a case study regarding the structural optimization of a typical gear bracket u...
This thesis investigates the applicability of artificial intelligence based approach to structural o...
In this paper, a technology enabling to optimize the topology of truss or frame structures with gene...
This article presents an application of Genetic Algorithms (GA) and Finite Element Analysis (FEA) to...
This paper develops a method for dealing with the stress minimization of continuum structures based ...
A design procedure incorporating a genetic algorithm is developed for discrete optimization of three...
Conventional methods are not simple or are close to impossible to be used to fabricate topology opti...
A design procedure incorporating a simple genetic algorithm (GA) is developed for discrete optimizat...
[EN] The aim of this paper is to introduce a method to reduce the weight in structures which are sub...
In this study, an attempt is made to minimize the weight of Howe roof and ten member-6 Node trusses,...
This article deals with optimization of the truss structure. A genetic algorithm is used for this op...
The paper deals with the design optimization of a bracket with Finite Element Analysis using ANSYS s...
A design procedure is presented incorporating a genetic algorithm for framed structures composed of ...
In any manufacturing process, product quality and cost are the two critical, essential factors that ...
This article describes the implementation of SGA (simple genetic algorithm) and PGA (parametric gene...
This paper represents a case study regarding the structural optimization of a typical gear bracket u...
This thesis investigates the applicability of artificial intelligence based approach to structural o...
In this paper, a technology enabling to optimize the topology of truss or frame structures with gene...
This article presents an application of Genetic Algorithms (GA) and Finite Element Analysis (FEA) to...
This paper develops a method for dealing with the stress minimization of continuum structures based ...
A design procedure incorporating a genetic algorithm is developed for discrete optimization of three...
Conventional methods are not simple or are close to impossible to be used to fabricate topology opti...
A design procedure incorporating a simple genetic algorithm (GA) is developed for discrete optimizat...