Improvement of mechanical properties of ferritic stainless steel weld metal by ultrasonic vibration

Authors investigated the effect of ultrasonic vibration on the solidification microstructure and mechanical properties of the weld metal of ferritic stainless steel by introducing directly ultrasonic vibration into the weld molten pool using ultrasonically vibrating filler metal. The main results ob...

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Veröffentlicht in:	Journal of materials processing technology 2010-09, Vol.210 (12), p.1646-1651
Hauptverfasser:	Watanabe, Takehiko, Shiroki, Masataka, Yanagisawa, Atsushi, Sasaki, Tomohiro
Format:	Artikel
Sprache:	eng
Schlagworte:	Ferritic stainless steels Filler metal Fracture elongation Mechanical properties Pools Solidification microstructure Ultrasonic vibration Vibration Weld metal Welded joints
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container_title	Journal of materials processing technology
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creator	Watanabe, Takehiko Shiroki, Masataka Yanagisawa, Atsushi Sasaki, Tomohiro
description	Authors investigated the effect of ultrasonic vibration on the solidification microstructure and mechanical properties of the weld metal of ferritic stainless steel by introducing directly ultrasonic vibration into the weld molten pool using ultrasonically vibrating filler metal. The main results obtained in this study are as follow. The ultrasonically vibrating filler metal could successfully transmit ultrasonic vibration to the weld molten pool. Ultrasonic vibration encouraged equiaxed grains to form in the central region of the weld metal. The more equiaxed grains formed due to ultrasonic vibration, the higher the welding speed was. The tensile strength of the weld with ultrasonic vibration was larger than that without vibration. The tensile fracture elongation of the weld with ultrasonic vibration remarkably increased compared to that without vibration. When the distance between an electrode tip and the filler metal was too short, the weld bead was less stably formed.
doi_str_mv	10.1016/j.jmatprotec.2010.05.015
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The main results obtained in this study are as follow. The ultrasonically vibrating filler metal could successfully transmit ultrasonic vibration to the weld molten pool. Ultrasonic vibration encouraged equiaxed grains to form in the central region of the weld metal. The more equiaxed grains formed due to ultrasonic vibration, the higher the welding speed was. The tensile strength of the weld with ultrasonic vibration was larger than that without vibration. The tensile fracture elongation of the weld with ultrasonic vibration remarkably increased compared to that without vibration. 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The main results obtained in this study are as follow. The ultrasonically vibrating filler metal could successfully transmit ultrasonic vibration to the weld molten pool. Ultrasonic vibration encouraged equiaxed grains to form in the central region of the weld metal. The more equiaxed grains formed due to ultrasonic vibration, the higher the welding speed was. The tensile strength of the weld with ultrasonic vibration was larger than that without vibration. The tensile fracture elongation of the weld with ultrasonic vibration remarkably increased compared to that without vibration. When the distance between an electrode tip and the filler metal was too short, the weld bead was less stably formed.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jmatprotec.2010.05.015</doi><tpages>6</tpages></addata></record>
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subjects	Ferritic stainless steels Filler metal Fracture elongation Mechanical properties Pools Solidification microstructure Ultrasonic vibration Vibration Weld metal Welded joints
title	Improvement of mechanical properties of ferritic stainless steel weld metal by ultrasonic vibration
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