Fatigue properties of steel to aluminum transition joints produced by explosion welding

被引：28

作者：

Becker, Nicolas ^{[1
]}

Gauthier, David ^{[2
]}

Vidal, Edgar E. ^{[3
]}

机构：

[1] Inst Soudure, 4 Blvd Henri Becquerel, F-57970 Yutz, France

[2] NobelClad, 105 Rue Freres Voisin, F-66000 Perpignan, France

[3] NobelClad, 11800 Ridge Pkwy,Ste 300, Broomfield, CO 80021 USA

来源：

INTERNATIONAL JOURNAL OF FATIGUE | 2020年 / 139卷

关键词：

Explosion welding; EXW; Transition joints; Fatigue; Steel to aluminum;

D O I：

10.1016/j.ijfatigue.2020.105736

中图分类号：

TH [机械、仪表工业];

学科分类号：

0802 ;

摘要：

This manuscript presents the results of designing and testing a novel fixturing device for determining the fatigue properties of explosive bonded metals. The fatigue strength of steel to aluminum transition joints in tensile and compression stresses are presented. Additionally, shear stress for different load ratios was also studied. The stress distribution in the specimens was verified by finite element analysis. The experimental tensile/compressive fatigue results show a comparable fatigue lifetime to the recommended IIW values. The shear fatigue strength of the explosion-welded junction tested in this study is equivalent to a traditional butt welded joint.

引用

页数：13

共 50 条

[21] Investigation of aluminum-steel joint formed by explosion welding
Kovacs-Coskun, T.
Volgyi, B.
Sikari-Nagl, I.
1ST INTERNATIONAL CONFERENCE ON RHEOLOGY AND MODELING OF MATERIALS (IC-RMM1), 2015, 602
[22] Structure and Mechanical Properties of Steel Welding Joints Produced Using Abrasive Waterjet Cutting
Tabatchikova, T. I.
Lepikhin, S. V.
Morozova, A. N.
Gudnev, N. Z.
PHYSICS OF METALS AND METALLOGRAPHY, 2018, 119 (07): : 691 - 699
[23] Structure and Mechanical Properties of Steel Welding Joints Produced Using Abrasive Waterjet Cutting
T. I. Tabatchikova
S. V. Lepikhin
A. N. Morozova
N. Z. Gudnev
Physics of Metals and Metallography, 2018, 119 : 691 - 699
[24] Physical and Mechanical Properties of High-Strength Steel Joints Produced by Laser Welding
Markashova, Liudmyla
Berdnikova, Olena
Bernatskyi, Artemii
Iurzhenko, Maksym
Sydorets, Volodymyr
2017 IEEE INTERNATIONAL YOUNG SCIENTISTS FORUM ON APPLIED PHYSICS AND ENGINEERING (YSF), 2017, : 88 - 91
[25] FATIGUE TESTING OF JOINTS PRODUCED BY SPOT AND CONTACT RELIEF WELDING
BEREZIENKO, VP
ZHEBROVSKII, AA
POPKOVSKII, VA
DESYATNIK, VV
INDUSTRIAL LABORATORY, 1983, 49 (12): : 1287 - 1288
[26] Effect of Welding Processes on Fatigue Properties of Stainless Steel Welded Joints for Railway Vehicle
Han, Xiao-Hui
Ning, Hai-Shi
Yang, Wei
Jiao, Jian-Qiang
Shi, Chun-Yuan
PROCEEDINGS OF THE 4TH 2016 INTERNATIONAL CONFERENCE ON MATERIAL SCIENCE AND ENGINEERING (ICMSE 2016), 2016, 101 : 388 - 393
[27] Microstructures and Mechanical Properties of Steel/Aluminum Alloy Joints Welded by Resistance Spot Welding
Yueying Zhang
Daqian Sun
Journal of Materials Engineering and Performance, 2017, 26 : 2649 - 2662
[28] Microstructures and Mechanical Properties of Steel/Aluminum Alloy Joints Welded by Resistance Spot Welding
Zhang, Yueying
Sun, Daqian
JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE, 2017, 26 (06) : 2649 - 2662
[29] Electron backscattered diffraction analysis on interface of aluminum/steel joints produced by plasma arc welding⁃brazing
Wu D.
Geng W.-H.
Li H.-M.
Sun D.-Q.
Jilin Daxue Xuebao (Gongxueban)/Journal of Jilin University (Engineering and Technology Edition), 2023, 53 (05): : 1331 - 1337
[30] Martensitic transformation and physical properties of 'steel-TiNi' bimetal composite, produced by explosion welding
Belyaev, S.
Rubanik, V.
Resnina, N.
Rubanik, V., Jr.
Rubanik, O.
Borisov, V.
PHASE TRANSITIONS, 2010, 83 (04) : 276 - 283

← 1 2 3 4 5 →