Fatigue strength characteristics of A6061 aluminum alloy and S35C carbon steel friction welded joints

被引：0

作者：

Morikawa, K ^{[1
]}

Ohue, Y ^{[1
]}

Ogawa, K ^{[1
]}

Nakayama, H ^{[1
]}

机构：

[1] Osaka Sangyo Univ, Daitou, Japan

来源：

PROCEEDINGS OF THE 10TH (2000) INTERNATIONAL OFFSHORE AND POLAR ENGINEERING CONFERENCE, VOL IV | 2000年

关键词：

fatigue strength; friction welding; A6061 aluminum alloy; S35C carbon steel; Weibull distribution;

D O I：

暂无

中图分类号：

U6 [水路运输]; P75 [海洋工程];

学科分类号：

0814 ; 081505 ; 0824 ; 082401 ;

摘要：

In this paper, in order to clarify the fatigue strength characteristics of dissimilar material friction welded joints of A6061 aluminum alloy to S35C carbon steel, the friction welded joints were produced under the three welding conditions involving a good welding condition and the fatigue strength characteristics of the welded joints was evaluated using a cantilever type rotary bending fatigue testing machine. The tested data were analyzed by Weibull distribution. The results indicated that increasing the upset pressure P(2) causes a decrease in the fatigue limit and tends to failure in the softened A6061 base material, moreover, under same stress level, the dispersion of fatigue life distribution of the welded joints is large compared with that of the base material.

引用

页码：145 / 149

页数：5

共 50 条

[21] Fatigue strength and fracture characteristics of linear friction welded joints of weathering mild steel
Wang, Yixun
Tsutsumi, Seiichiro
Kawakubo, Takumi
Fujii, Hidetoshi
FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES, 2022, 45 (10) : 2769 - 2783
[22] Effect of shot peening with fine zirconia shot on fatigue property of friction stir welded A6061 alloy
Masaki, Kiyotaka
Yamashiro, Kenji
Kobayashi, Yuji
Tuji, Toshiya
Masaki, Kiyotaka, 1600, Society of Materials Science Japan (63): : 596 - 601
[23] PROBABILISTIC FATIGUE PROPERTIES OF CARBON STEEL S35C NEAR THE ENDURANCE LIMIT.
Tanaka, Tsuneshichi
Iwaya, Takashi
Sakai, Tatsuo
Zairyo/Journal of the Society of Materials Science, Japan, 1986, 35 (391) : 421 - 426
[24] Friction welding of 6061 aluminum alloy pipe to S25C carbon steel pipe
Kawai, G.
Ogawa, K.
Tokisue, H.
International Journal of Offshore and Polar Engineering, 1998, 8 (02): : 144 - 147
[25] Effect of machining process on the joint strength of friction welded joint of 6061 aluminum pipe and S25C carbon steel pipe
Kawai, Gosaku
Ogawa, Koichi
Tokisue, Hiroshi
Keikinzoku/Journal of Japan Institute of Light Metals, 1999, 49 (11): : 559 - 563
[26] Microstructure and Fatigue Behaviors of Dissimilar A6061/Galvannealed Steel Joints Fabricated by Friction Stir Spot Welding
Kumamoto, Koki
Kosaka, Tsuyoshi
Kobayashi, Tatsuya
Shohji, Ikuo
Kamakoshi, Yuichiro
MATERIALS, 2021, 14 (14)
[27] Fatigue behaviour and impact strength assessment of friction stir-welded carbon steel joints
Bhatia, Anmol
Wattal, Reeta
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART E-JOURNAL OF PROCESS MECHANICAL ENGINEERING, 2022, 238 (05) : 2043 - 2051
[28] THE RELATIONSHIP BETWEEN TENSILE AND FATIGUE STRENGTH OF FRICTION WELDED STEEL JOINTS
Selvamani, S. T.
Palanikumar, K.
Shanmugam, K.
Divagar, S.
Vigneshwar, M.
PROCEEDINGS OF THE ASME INTERNATIONAL MECHANICAL ENGINEERING CONGRESS AND EXPOSITION, 2015, VOL. 14, 2016,
[29] Impact tensile properties of friction welded butt joints between 6061 aluminum alloy and Type 304 stainless steel
Yokoyama, T
JSME INTERNATIONAL JOURNAL SERIES A-SOLID MECHANICS AND MATERIAL ENGINEERING, 2003, 46 (03) : 308 - 315
[30] MICROSTRUCTURE-SENSITIVE FATIGUE MODELING OF FRICTION STIR WELDED ALUMINUM ALLOY 6061
Cisko, A. R.
Jordon, Brian
Rodriguez, Rogie
Rao, Harish
Allison, P. G.
PROCEEDINGS OF THE ASME INTERNATIONAL MECHANICAL ENGINEERING CONGRESS AND EXPOSITION, 2015, VOL. 14, 2016,

← 1 2 3 4 5 →