In this paper, a procedure for bi-objective optimization design of functionally gradient materials (FGM) is presented. Different microstructures formed by two primary materials are evaluated by a micromechanical analysis method. Macroscopically, FGMs are optimally designed by using these microstructures. Instead of using conventional simply assumed power law material distribution functions, a generic material distribution function is used. The bi-objective FGM optimization design procedure is highlighted by a flywheel example. A parametric formulation is used for both the geometric representation and the optimization procedure
The computational design of a composite where the properties of its constituents change gradually wi...
The objective of this study is to design periodic microstructures of materials using the bidirection...
We design an anisotropic, multiparametric family of optimised microstructures. The microstructures a...
The objective of this research is to understand the fundamental relationships necessary to develop a...
Functionally Graded Materials (FGMs) possess continuously graded material properties and are charact...
Design of functionally graded material (FGM), in which the mechanical property varies along one dire...
The objective of this research is to develop a robust methodology for the design of functionally gra...
A new method for the optimal design of Functionally Graded Materials (FGM) is proposed in this paper...
This paper presents a computational technique for the topological design of microstructures for func...
Material engineering has become one of the corner stones in various engineering applications. The sc...
Abstract. The concept of functionally graded materials (FGMs) is closely related to the concept of t...
Abstract. Functionally Graded Materials (FGMs) possess continuously graded material properties and a...
A method was presented for multi-objective optimization of material distribution of simply supported...
Functionally GradedMaterials (FGMs) are a newand attractive class ofcomposite materials,characterize...
This work describes a topology optimization framework to design the material distribution of functio...
The computational design of a composite where the properties of its constituents change gradually wi...
The objective of this study is to design periodic microstructures of materials using the bidirection...
We design an anisotropic, multiparametric family of optimised microstructures. The microstructures a...
The objective of this research is to understand the fundamental relationships necessary to develop a...
Functionally Graded Materials (FGMs) possess continuously graded material properties and are charact...
Design of functionally graded material (FGM), in which the mechanical property varies along one dire...
The objective of this research is to develop a robust methodology for the design of functionally gra...
A new method for the optimal design of Functionally Graded Materials (FGM) is proposed in this paper...
This paper presents a computational technique for the topological design of microstructures for func...
Material engineering has become one of the corner stones in various engineering applications. The sc...
Abstract. The concept of functionally graded materials (FGMs) is closely related to the concept of t...
Abstract. Functionally Graded Materials (FGMs) possess continuously graded material properties and a...
A method was presented for multi-objective optimization of material distribution of simply supported...
Functionally GradedMaterials (FGMs) are a newand attractive class ofcomposite materials,characterize...
This work describes a topology optimization framework to design the material distribution of functio...
The computational design of a composite where the properties of its constituents change gradually wi...
The objective of this study is to design periodic microstructures of materials using the bidirection...
We design an anisotropic, multiparametric family of optimised microstructures. The microstructures a...