最佳材料选择的决策工具:综述(英文)
发布时间:2020-12-20 05:42
本文回顾了考虑不同参数的用于选择最佳材料的决策工具(材料比较和选择工具)。主要解决了以下重要问题:1)不同材料选择和排序方法所涉及的工程应用;2)解决工程应用最佳材料选择使用的主要决策工具;3)所使用的决策工具的优缺点;4)在选择合适的替代材料时考虑的主要使用标准或目标;5)关于材料选择领域的DEA概述。本文研究了全球不同地区1988年以来的文献,不仅强调了材料选择在产品开发早期设计阶段的重要性,而且还有助于设计和材料工程师系统地应用不同的决策工具。
【文章来源】:Journal of Central South University. 2020年03期
【文章页数】:45 页
【文章目录】:
1 Introduction
2 Decision making tools for optimal material selection
2.1 Multi-attribute decision making methods
2.1.1 Technique for order preference by similarity to ideal solution(TOPSIS)method
2.1.2 Elimination and choice expressing reality(ELECTRE)method
2.1.3 Preference ranking organization method for enrichment evaluations(PROMETHEE)method
2.1.4 Analytical hierarchal process(AHP)method
2.1.5 Simple additive weighting method
2.1.6 Vlse kriterijumska optimizacija kompromisno resenje`(VIKOR)method
2.1.7 Graph theory and matrix method
2.1.8 Grey relational analysis method
2.1.9 Complex proportional assessment method
2.1.1 0 Evaluation of mixed data method
2.1.1 1 Preference selection index(PSI)method
2.1.1 2 Analytic network process
2.1.1 3 Multi-optimization on basis of ratio analysis method
2.1.1 4 TOmada de decisao interativa multicriterio method
2.2 Fuzzy based decision making tools
2.3 Multi objective decision making methods
2.3.1 Life cycle analysis(LCA)methods
2.3.2 Genetic algorithm and artificial neural networks
2.3.3 Goal programming
2.3.4 Utility analysis
2.3.5 Ashby approach
2.3.6 Linear assignment method
2.4 Grey numbers
2.5 Hybrid methods in MCDM for material selection
2.6 Comparative analysis of decision making tools in material selection
3 Observations
3.1 Engineering applications targeted by various decision making tools
3.2 Commonly used decision making tool for optimal material selection
3.3 Merits and demerits of decision making tools
3.4 Commonly used criteria/objectives for optimal material selection
3.5 Overview of DEA on material selection problems
3.6 Other observations
4 Future work
5 Conclusions
【参考文献】:
期刊论文
[1]Group Decision Making With Consistency of Intuitionistic Fuzzy Preference Relations Under Uncertainty[J]. Yang Lin,Yingming Wang. IEEE/CAA Journal of Automatica Sinica. 2018(03)
[2]A Parametric Genetic Algorithm Approach to Assess Complementary Options of Large Scale Wind-solar Coupling[J]. Tim Mareda,Ludovic Gaudard,Franco Romerio. IEEE/CAA Journal of Automatica Sinica. 2017(02)
[3]齿轮选材及热处理工艺智能专家系统[J]. 李新城,陈光,朱伟兴,王匀,张开华,汪建敏. 金属学报. 2004(10)
本文编号:2927313
【文章来源】:Journal of Central South University. 2020年03期
【文章页数】:45 页
【文章目录】:
1 Introduction
2 Decision making tools for optimal material selection
2.1 Multi-attribute decision making methods
2.1.1 Technique for order preference by similarity to ideal solution(TOPSIS)method
2.1.2 Elimination and choice expressing reality(ELECTRE)method
2.1.3 Preference ranking organization method for enrichment evaluations(PROMETHEE)method
2.1.4 Analytical hierarchal process(AHP)method
2.1.5 Simple additive weighting method
2.1.6 Vlse kriterijumska optimizacija kompromisno resenje`(VIKOR)method
2.1.7 Graph theory and matrix method
2.1.8 Grey relational analysis method
2.1.9 Complex proportional assessment method
2.1.1 0 Evaluation of mixed data method
2.1.1 1 Preference selection index(PSI)method
2.1.1 2 Analytic network process
2.1.1 3 Multi-optimization on basis of ratio analysis method
2.1.1 4 TOmada de decisao interativa multicriterio method
2.2 Fuzzy based decision making tools
2.3 Multi objective decision making methods
2.3.1 Life cycle analysis(LCA)methods
2.3.2 Genetic algorithm and artificial neural networks
2.3.3 Goal programming
2.3.4 Utility analysis
2.3.5 Ashby approach
2.3.6 Linear assignment method
2.4 Grey numbers
2.5 Hybrid methods in MCDM for material selection
2.6 Comparative analysis of decision making tools in material selection
3 Observations
3.1 Engineering applications targeted by various decision making tools
3.2 Commonly used decision making tool for optimal material selection
3.3 Merits and demerits of decision making tools
3.4 Commonly used criteria/objectives for optimal material selection
3.5 Overview of DEA on material selection problems
3.6 Other observations
4 Future work
5 Conclusions
【参考文献】:
期刊论文
[1]Group Decision Making With Consistency of Intuitionistic Fuzzy Preference Relations Under Uncertainty[J]. Yang Lin,Yingming Wang. IEEE/CAA Journal of Automatica Sinica. 2018(03)
[2]A Parametric Genetic Algorithm Approach to Assess Complementary Options of Large Scale Wind-solar Coupling[J]. Tim Mareda,Ludovic Gaudard,Franco Romerio. IEEE/CAA Journal of Automatica Sinica. 2017(02)
[3]齿轮选材及热处理工艺智能专家系统[J]. 李新城,陈光,朱伟兴,王匀,张开华,汪建敏. 金属学报. 2004(10)
本文编号:2927313
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