On the mechanical characteristics of friction stir welded dissimilar polymers: statistical analysis of the processing parameters and morphological investigations of the weld joint

The applications of industrial polymers have grown extensively owing to the fact of their competent performance characteristics, at par with commonly used engineering materials, as well as technological breakthroughs. Friction stir welding (FSW) of thermoplastics is a recent approach that enabled th...

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Veröffentlicht in:	Journal of the Brazilian Society of Mechanical Sciences and Engineering 2020-04, Vol.42 (4), Article 154
Hauptverfasser:	Singh, Sunpreet, Singh, Gurminder, Prakash, Chander, Kumar, Ranvijay
Format:	Artikel
Sprache:	eng
Schlagworte:	Confidence intervals Engineering Experimentation Feed rate Flexural strength Friction stir welding High density polyethylenes Mechanical Engineering Mechanical properties Morphology Polyamide resins Polyethylenes Polymers Process parameters Statistical analysis Technical Paper Tensile strength Thermoplastic resins Welded joints Welding parameters
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container_title	Journal of the Brazilian Society of Mechanical Sciences and Engineering
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creator	Singh, Sunpreet Singh, Gurminder Prakash, Chander Kumar, Ranvijay
description	The applications of industrial polymers have grown extensively owing to the fact of their competent performance characteristics, at par with commonly used engineering materials, as well as technological breakthroughs. Friction stir welding (FSW) of thermoplastics is a recent approach that enabled the permanent joining of similar or dissimilar polymers with desirable efficacy. The primary purpose of the present study is to investigate the effect of friction stir welding process parameters on the welding characteristics (tensile and flexural strength) of the two dissimilar thermoplastics, high-density polythene and polyamide (PA-6). Processing parameters such as the number of passes, pre-heating temperature, tool speed, feed rate, and plunge-in-time have been selected as input parameters, and their influence on the above-mentioned mechanical properties has been studied through Taguchi L-18-based design of experimentation. Further, the morphological investigations of the weld interface and the fractured joint have been studied by using scanning electron microscopy. It has been found that the tool speed has contributed 27.88% and 58.46% in tensile and flexural strength, respectively, at 95% confidence level. Overall, it has been found that the process parameters of FSW have a strong influence on the joint’s characteristics and shown importance to study for the futuristic developments in this technology.
doi_str_mv	10.1007/s40430-020-2227-4
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Soc. Mech. Sci. Eng</addtitle><description>The applications of industrial polymers have grown extensively owing to the fact of their competent performance characteristics, at par with commonly used engineering materials, as well as technological breakthroughs. Friction stir welding (FSW) of thermoplastics is a recent approach that enabled the permanent joining of similar or dissimilar polymers with desirable efficacy. The primary purpose of the present study is to investigate the effect of friction stir welding process parameters on the welding characteristics (tensile and flexural strength) of the two dissimilar thermoplastics, high-density polythene and polyamide (PA-6). Processing parameters such as the number of passes, pre-heating temperature, tool speed, feed rate, and plunge-in-time have been selected as input parameters, and their influence on the above-mentioned mechanical properties has been studied through Taguchi L-18-based design of experimentation. 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subjects	Confidence intervals Engineering Experimentation Feed rate Flexural strength Friction stir welding High density polyethylenes Mechanical Engineering Mechanical properties Morphology Polyamide resins Polyethylenes Polymers Process parameters Statistical analysis Technical Paper Tensile strength Thermoplastic resins Welded joints Welding parameters
title	On the mechanical characteristics of friction stir welded dissimilar polymers: statistical analysis of the processing parameters and morphological investigations of the weld joint
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