Experimental and Finite Element Simulation of Tensile Behavior of Bi-Metallic Structure Fabricated Through Wire Arc Additive Manufacturing

被引:0
作者
Veeman, Dhinakaran [1 ]
Vijayakumar, M. D. [2 ]
Subramaniyan, Mohan Kumar [1 ]
Viswanathan, Balakumar [1 ]
Arumugaperumal, Pechimuthu [1 ]
Jeevaraj, Kanishkaa [1 ]
机构
[1] Chennai Inst Technol, Ctr Addit Mfg, Chennai 600069, Tamil Nadu, India
[2] Chennai Inst Technol, Dept Mech Engn, Chennai 600069, Tamil Nadu, India
来源
TRANSACTIONS OF THE INDIAN INSTITUTE OF METALS | 2025年 / 78卷 / 02期
关键词
SS316L/SS304; Wire arc additive manufacturing; Macro-microstructure; Electron backscatter diffraction; Fractography; MECHANICAL-PROPERTIES; FRACTURE;
D O I
10.1007/s12666-024-03468-9
中图分类号
TF [冶金工业];
学科分类号
0806 ;
摘要
This study focuses on fabrication of stainless steel-based bi-metallic structure through wire arc additive manufacturing. This study also deals with simulating tensile behavior of BM structure. Finite element simulation is one of tools that reduces the need for real-time experimentations. The simulated outcomes revealed that BM structure exhibited a tensile strength of 537.98 MPa which was similar to that of experimental outcomes resulting in error % less than 1. The exhibited tensile strength of BM structure was superior to that of wrought alloy as there was a variation in the microstructure which caused complex thermal cycle experienced during fabrication.
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页数:7
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共 12 条
[1]   Investigation on un-peened and laser shock peened dissimilar weldments of Inconel 600 and AISI 316L fabricated using activated-TIG welding technique [J].
Chandrasekar, G. ;
Kailasanathan, C. ;
Vasundara, M. .
JOURNAL OF MANUFACTURING PROCESSES, 2018, 35 :466-478
[2]   Mechanical behavior of austenitic stainless steels produced by wire arc additive manufacturing [J].
Chen, Man-Tai ;
Gong, Zhichao ;
Zhang, Tianyi ;
Zuo, Wenkang ;
Zhao, Yang ;
Zhao, Ou ;
Zhang, Guodong ;
Wang, Zhongxing .
THIN-WALLED STRUCTURES, 2024, 196
[3]   Wire and arc additive manufactured steel: Tensile and wear properties [J].
Haden, C., V ;
Zeng, G. ;
Carter, F. M., III ;
Ruhl, C. ;
Krick, B. A. ;
Harlow, D. G. .
ADDITIVE MANUFACTURING, 2017, 16 :115-123
[4]   Fracture properties of steel fiber reinforced high strength concrete using work of fracture and size effect methods [J].
Kazemi, M. T. ;
Golsorkhtabar, H. ;
Beygi, M. H. A. ;
Gholamitabar, M. .
CONSTRUCTION AND BUILDING MATERIALS, 2017, 142 :482-489
[5]  
Kou S., 2003, N. Jersey USA, V431, P223, DOI [10.1557/mrs2003.197, DOI 10.1557/MRS2003.197]
[6]   Microstructural Features and Mechanical Integrity of Wire Arc Additive Manufactured SS321/Inconel 625 Functionally Gradient Material [J].
Mohan Kumar, S. ;
Rajesh Kannan, A. ;
Pravin Kumar, N. ;
Pramod, R. ;
Siva Shanmugam, N. ;
Vishnu, A. S. ;
Channabasavanna, S. G. .
JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE, 2021, 30 (08) :5692-5703
[7]   Additive manufacturing of 304 stainless steel integrated component by hybrid WAAM and LDED [J].
Niu, Fangyong ;
Bi, Weiming ;
Zhang, Kaijun ;
Sun, Xiong ;
Ma, Guangyi ;
Wu, Dongjiang .
MATERIALS TODAY COMMUNICATIONS, 2023, 35
[8]   A strategy to predict the fracture toughness of steels with a banded ferrite-pearlite structure based on the micromechanics of brittle fracture initiation [J].
Shibanuma, Kazuki ;
Nemoto, Yoshiki ;
Hiraide, Takashi ;
Suzuki, Katsuyuki ;
Sadamatsu, Sunao ;
Adachi, Yoshitaka ;
Aihara, Shuji .
ACTA MATERIALIA, 2018, 144 :386-399
[9]   Study on the weldability, microstructure and mechanical properties of thick Inconel 617 plate using narrow gap laser welding method [J].
Su, Junhao ;
Ren, Wenjie ;
Nie, Pulin ;
Huang, Jian ;
Zhang, Ke ;
Li, Zhuguo .
MATERIALS & DESIGN, 2019, 175
[10]   Experimental investigations on mechanical properties of multi-layered structure fabricated by GMAW-based WAAM of SS316L [J].
Vora, Jay ;
Parmar, Heet ;
Chaudhari, Rakesh ;
Khanna, Sakshum ;
Doshi, Mikesh ;
Patel, Vivek .
JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T, 2022, 20 :2748-2757
12