Optimal Design of Functionally Graded Parts

Nayak, Priyambada; Armani, Amir

doi:10.3390/met12081335

Cited by 10 publications

(2 citation statements)

References 216 publications

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“…Their unique properties, but also the development of design methods and implementation of manufacturing techniques have led to the great success of the FGM concept. The detailed, impressive history of FGM, including manufacturing, modeling, and designing, together with a literature review, one can find, for example, in recently published papers [3].…”

Section: Introductionmentioning

confidence: 99%

Cellular Automata Approach to Topology Optimization of Graded Multi-Material Structures

Tajs-Zielińska

Bochenek

2023

Applied Sciences

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Despite decades of progress, structural topology optimization is still one of the most important areas of engineering optimal design. The intensive research within this area has been stimulated by the development of efficient methods and algorithms on one side and the needs and demands of contemporary engineering on the other. Over the years, the practical aspect of topology optimization has become one of the most significant issues within the design community. Simultaneously, the range of design applications has been broadening. Among many research areas where topology optimization is present, attention has been paid to the design of multi-material structures. The gradation of the material properties has a significant influence on the final layout of the structure, so this problem can be treated as an extension of the classical task of the topology optimization of structures made of a material with uniform distributions of properties. While working with multi-material structures, the important role plays an interface between parts made of materials with different properties. In this paper, the implementation of interfaces made of functionally graded materials (FGM) is proposed. A functionally graded interface means that continuous and smooth changes of properties are assigned to a particular direction from one material surface to another. This paper presents the idea of topology optimization of graded multi-material structures using a simple, fast convergent technique based on the Cellular Automata approach. The proposal is to take the advantage of the versatility of efficient professional finite element-based structural analysis software and the simplicity of the original heuristic topology generator, to build a tool for the optimization of FGM structures as well as multi-material structures including the FGM interface.

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Section: Introductionmentioning

confidence: 99%

Cellular Automata Approach to Topology Optimization of Graded Multi-Material Structures

Tajs-Zielińska

Bochenek

2023

Applied Sciences

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“…In this case, the huge cost of experimental testing has become one of the main obstacles to the commercial research of eddy current retarder [7]. Numerical analysis based on the finite element analysis (FEA) method can help enterprises reduce the number of prototypes and test times of prototype testing in the design, optimization or control of products or processes [8]. For enterprises and research institutions, the finite element simulation analysis not only brings about cost reduction, but also more important is to win advantages in the fierce market competition, bringing greater returns for R&D investment.…”

Section: Introductionmentioning

confidence: 99%

Overview of Numerical Analysis and Optimization Methods for Eddy Current Retarders

Liao¹

2022

AJST

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Aiming at the analysis and optimization of eddy current retarder, this paper reviews the development of numerical analysis based on finite element method. The characteristics of finite element method and the application of numerical method in the analysis of eddy current retarder are briefly introduced. In terms of algorithm, the different applications of multi-objective genetic algorithm, robustness principle, Taguchi algorithm and Rogowski method in the analysis of important parameters of eddy current retarder are introduced and summarized; In terms of software, the application of commercial software in magnetic field and temperature field is briefly introduced; In industrial practice, the development of numerical simulation methods in the research of braking torque is introduced. On the basis of reviewing the numerical analysis and optimization methods of eddy current retarder, the future of its digital design is prospected.

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Integrated Design Models for Materially Differentiated Knitted Textile Membranes as the Means to Sustainable Material Culture Within Membrane Architecture

Sinke,

Ramsgaard Thomsen,

Tamke

2023

Sustainable Development Goals Series

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Optimal Design of Functionally Graded Parts

Cited by 10 publications

References 216 publications

Cellular Automata Approach to Topology Optimization of Graded Multi-Material Structures

Cellular Automata Approach to Topology Optimization of Graded Multi-Material Structures

Overview of Numerical Analysis and Optimization Methods for Eddy Current Retarders

Integrated Design Models for Materially Differentiated Knitted Textile Membranes as the Means to Sustainable Material Culture Within Membrane Architecture

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