2024-03-29T11:59:31Z
https://niigata-u.repo.nii.ac.jp/oai
oai:niigata-u.repo.nii.ac.jp:00004179
2022-12-15T03:37:12Z
423:424:425
453:454
The Effect of Ultrasonic Vibration on The Mechanical Properties of Austenitic Stainless Steel Weld
オーステナイトステンレス鋼溶接部の機械的性質に及ぼす超音波振動の影響
オーステナイトステンレス鋼溶接部の機械的性質に及ぼす超音波振動の影響
渡辺, 健彦
47909
大河原, 修平
47910
関, 伸介
47911
柳沢, 敦
47912
小沼, 静代
47913
Ultrasonic vibration
Tensile strength of weld
Solidification structure
Width of columnar crystal
Subgrain boundary
Primary dendrite arm spacing
This study was carried out to clarify whether it is possible or not to improve the mechanical properties of welds by means of applying ultrasonic vibration to the weld metal. Autogenous weld by TIG process was made on an austenitic stainless steel plate vibrated ultrasonically. The effects of the ultrasonic vibration on the solidification structure and the mechanical properties of the weld were examined. The main results obtained in this study are as follows. The ultrasonic vibration applied to the weld metal makes the tensile strength of the weld higher than that of the conventional weld. By the ultrasonic vibration, the width of an austenite columnar crystal in the weld metal is decreased and this is likely to be one of the factors to increase the tensile strength of the weld. The ultrasonic vibration changes the microstructure in the weld metal from cellular dendrite morphology in non-vibrated weld metal to subgrain morphology aligned in the growth direction. The existence of the subgrain boundary is also likely to be one of the factors to increase the tensile strength of the weld. The ultrasonic vibration decreased the primary dendrite arm spacing in the weld metal, causing the weld strength to increase. The larger the ultrasonic vibration amplitude is, the more conspicuous the above phenomena are.
journal article
溶接学会
2003
application/pdf
溶接学会論文集
2
21
249
255
溶接学会論文集
AN1005067X
02884771
https://niigata-u.repo.nii.ac.jp/record/4179/files/06_0013.pdf
jpn