Interlayer Engineering on Friction Welded Titanium Tube to Stainless Steel Tube Plate by External Tool Process

C. Maxwell Rejil; S. Muthukumaran; C. Sharan; S. P. Gill; H. B. Dong

doi:10.1007/s12666-017-1059-0

Interlayer Engineering on Friction Welded Titanium Tube to Stainless Steel Tube Plate by External Tool Process

C. Maxwell Rejil
, S. Muthukumaran^*
, C. Sharan
, S. P. Gill
, H. B. Dong

^*Corresponding author for this work

Metallurgy and Materials

Research output: Contribution to journal › Article › peer-review

Abstract

Joining of titanium and stainless steel is challenging due to the formation of hard, brittle intermetallics. This study focuses on engineering ductile materials for joining transition metals. Friction welding of tube to tube-plate by an external tool, a novel solid state welding process was employed to join titanium tube and stainless steel tube plate. The interlayers engineered were copper, silver and Cu–Zn alloy. The micrographs revealed phase transformations in titanium tube and unaffected stainless steel base. Interface peak microhardness of 458 HV was observed for Ti/Cu–Zn/SS welded sample. The intermetallics formed were characterized by X-ray diffraction and scanning electron microscopy with energy dispersive spectroscopy. A novel shear test procedure was developed to evaluate the maximum shear load. It was found that joints with silver as interlayer withstood the maximum shear load of 56 kN. The shear surfaces were further analyzed and investigated for fracture study.

Original language	English
Pages (from-to)	691-701
Number of pages	11
Journal	Transactions of the Indian Institute of Metals
Volume	70
Issue number	3
DOIs	https://doi.org/10.1007/s12666-017-1059-0
Publication status	Published - 1 Apr 2017

Bibliographical note

Publisher Copyright:
© 2017, The Indian Institute of Metals - IIM.

Keywords

Friction welding
Interlayer
Intermetallics
Joint interface
Shear load

ASJC Scopus subject areas

Metals and Alloys

Access to Document

10.1007/s12666-017-1059-0

Cite this

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title = "Interlayer Engineering on Friction Welded Titanium Tube to Stainless Steel Tube Plate by External Tool Process",

abstract = "Joining of titanium and stainless steel is challenging due to the formation of hard, brittle intermetallics. This study focuses on engineering ductile materials for joining transition metals. Friction welding of tube to tube-plate by an external tool, a novel solid state welding process was employed to join titanium tube and stainless steel tube plate. The interlayers engineered were copper, silver and Cu–Zn alloy. The micrographs revealed phase transformations in titanium tube and unaffected stainless steel base. Interface peak microhardness of 458 HV was observed for Ti/Cu–Zn/SS welded sample. The intermetallics formed were characterized by X-ray diffraction and scanning electron microscopy with energy dispersive spectroscopy. A novel shear test procedure was developed to evaluate the maximum shear load. It was found that joints with silver as interlayer withstood the maximum shear load of 56 kN. The shear surfaces were further analyzed and investigated for fracture study.",

keywords = "Friction welding, Interlayer, Intermetallics, Joint interface, Shear load",

author = "Rejil, \{C. Maxwell\} and S. Muthukumaran and C. Sharan and Gill, \{S. P.\} and Dong, \{H. B.\}",

note = "Publisher Copyright: {\textcopyright} 2017, The Indian Institute of Metals - IIM.",

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T1 - Interlayer Engineering on Friction Welded Titanium Tube to Stainless Steel Tube Plate by External Tool Process

AU - Rejil, C. Maxwell

AU - Muthukumaran, S.

AU - Sharan, C.

AU - Gill, S. P.

AU - Dong, H. B.

PY - 2017/4/1

Y1 - 2017/4/1

N2 - Joining of titanium and stainless steel is challenging due to the formation of hard, brittle intermetallics. This study focuses on engineering ductile materials for joining transition metals. Friction welding of tube to tube-plate by an external tool, a novel solid state welding process was employed to join titanium tube and stainless steel tube plate. The interlayers engineered were copper, silver and Cu–Zn alloy. The micrographs revealed phase transformations in titanium tube and unaffected stainless steel base. Interface peak microhardness of 458 HV was observed for Ti/Cu–Zn/SS welded sample. The intermetallics formed were characterized by X-ray diffraction and scanning electron microscopy with energy dispersive spectroscopy. A novel shear test procedure was developed to evaluate the maximum shear load. It was found that joints with silver as interlayer withstood the maximum shear load of 56 kN. The shear surfaces were further analyzed and investigated for fracture study.

AB - Joining of titanium and stainless steel is challenging due to the formation of hard, brittle intermetallics. This study focuses on engineering ductile materials for joining transition metals. Friction welding of tube to tube-plate by an external tool, a novel solid state welding process was employed to join titanium tube and stainless steel tube plate. The interlayers engineered were copper, silver and Cu–Zn alloy. The micrographs revealed phase transformations in titanium tube and unaffected stainless steel base. Interface peak microhardness of 458 HV was observed for Ti/Cu–Zn/SS welded sample. The intermetallics formed were characterized by X-ray diffraction and scanning electron microscopy with energy dispersive spectroscopy. A novel shear test procedure was developed to evaluate the maximum shear load. It was found that joints with silver as interlayer withstood the maximum shear load of 56 kN. The shear surfaces were further analyzed and investigated for fracture study.

KW - Friction welding

KW - Interlayer

KW - Intermetallics

KW - Joint interface

KW - Shear load

UR - https://www.scopus.com/pages/publications/85012202975

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M3 - Article

AN - SCOPUS:85012202975

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VL - 70

SP - 691

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JO - Transactions of the Indian Institute of Metals

JF - Transactions of the Indian Institute of Metals

IS - 3

ER -

Interlayer Engineering on Friction Welded Titanium Tube to Stainless Steel Tube Plate by External Tool Process

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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