Tensile Shear Strength and Elongation of Fsw Parts Predicted by Taguchi-Based Fuzzy Logic
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Date
2016
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Publisher
Carl Hanser Verlag
Open Access Color
Green Open Access
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Abstract
This paper represents the fuzzy logic model for modeling and prediction of tensile shear strength and percent elongation of parts produced by the friction stir welding (FSW) process. A Taguchi L-16 orthogonal array is used to plan and select the parameters and their levels. Weld travel speed, pin diameter and tool rotation are used as input variables. Therefore, a three-input and two-output fuzzy model is used to correlate these variables to the responses of tensile shear strength and percent elongation using the fuzzy rules generated based on experimental results. Close agreement is obtained between the fuzzy predicted and experimental results with the correlation coefficients of 0.931 and 0.895 for tensile shear strength and elongation, respectively.
Description
Keywords
Friction stir welding, Taguchi design method, fuzzy logic, Mechanical-Properties, Friction, Optimization, Microstructure, Parameters, Joints
Fields of Science
0209 industrial biotechnology, 0203 mechanical engineering, 02 engineering and technology
Citation
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OpenCitations Citation Count
3
Source
Materıals Testıng
Volume
58
Issue
4
Start Page
351
End Page
356
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CrossRef : 3
Scopus : 3
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Mendeley Readers : 7
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3
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3
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