Study of mechanical properties and characterization of pipe steel welded by hybrid (friction stir weld + root arc weld) approach

Yong Chae Lim; Samuel Sanderson; Murray Mahoney; Andrew J. Wasson; Doug P. Fairchild; Yanli Wang; Zhili Feng

doi:10.1007/978-3-319-48173-9_6

Study of mechanical properties and characterization of pipe steel welded by hybrid (friction stir weld + root arc weld) approach

Yong Chae Lim
, Samuel Sanderson
, Murray Mahoney
, Andrew J. Wasson
, Doug P. Fairchild
, Yanli Wang
, Zhili Feng

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

1 Scopus citations

Abstract

Friction stir welding (FSW) has recently attracted attention as an alternative construction process for gas/oil transportation applications due to advantages compared to fusion welding techniques. A significant advantage is the ability of FSW to weld the entire or nearly the entire wall thickness in a single pass, while fusion welding requires multiple passes. However, when FSW is applied to a pipe or tube geometry, an internal back support anvil is required to resist the plunging forces exerted during FSW. Unfortunately, it may not be convenient or economical to use internal backing support due to limited access for some applications. To overcome this issue, ExxonMobil recently developed a new concept, combining root arc welding and FSW. That is, a root arc weld is made prior to FSW that supports the normal loads associated with FSW. In the present work, mechanical properties of a FSW + root arc welded pipe steel are reported including microstructure and microhardness.

Original language	English
Title of host publication	Friction Stir Welding and Processing VIII
Publisher	Springer International Publishing
Pages	55-68
Number of pages	14
ISBN (Electronic)	9783319481739
ISBN (Print)	9781119082491
DOIs	https://doi.org/10.1007/978-3-319-48173-9_6
State	Published - Jan 1 2016

Keywords

Friction stir welding
Hybrid approach
Mechanical properties
Pipe steel
Root arc weld

Access to Document

10.1007/978-3-319-48173-9_6

Cite this

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title = "Study of mechanical properties and characterization of pipe steel welded by hybrid (friction stir weld + root arc weld) approach",

abstract = "Friction stir welding (FSW) has recently attracted attention as an alternative construction process for gas/oil transportation applications due to advantages compared to fusion welding techniques. A significant advantage is the ability of FSW to weld the entire or nearly the entire wall thickness in a single pass, while fusion welding requires multiple passes. However, when FSW is applied to a pipe or tube geometry, an internal back support anvil is required to resist the plunging forces exerted during FSW. Unfortunately, it may not be convenient or economical to use internal backing support due to limited access for some applications. To overcome this issue, ExxonMobil recently developed a new concept, combining root arc welding and FSW. That is, a root arc weld is made prior to FSW that supports the normal loads associated with FSW. In the present work, mechanical properties of a FSW + root arc welded pipe steel are reported including microstructure and microhardness.",

keywords = "Friction stir welding, Hybrid approach, Mechanical properties, Pipe steel, Root arc weld",

author = "Lim, \{Yong Chae\} and Samuel Sanderson and Murray Mahoney and Wasson, \{Andrew J.\} and Fairchild, \{Doug P.\} and Yanli Wang and Zhili Feng",

note = "Publisher Copyright: {\textcopyright} 2016 by The Minerals, Metals \& Materials Society.",

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doi = "10.1007/978-3-319-48173-9\_6",

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Study of mechanical properties and characterization of pipe steel welded by hybrid (friction stir weld + root arc weld) approach. / Lim, Yong Chae; Sanderson, Samuel; Mahoney, Murray et al.
Friction Stir Welding and Processing VIII. Springer International Publishing, 2016. p. 55-68.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

TY - CHAP

T1 - Study of mechanical properties and characterization of pipe steel welded by hybrid (friction stir weld + root arc weld) approach

AU - Lim, Yong Chae

AU - Sanderson, Samuel

AU - Mahoney, Murray

AU - Wasson, Andrew J.

AU - Fairchild, Doug P.

AU - Wang, Yanli

AU - Feng, Zhili

PY - 2016/1/1

Y1 - 2016/1/1

N2 - Friction stir welding (FSW) has recently attracted attention as an alternative construction process for gas/oil transportation applications due to advantages compared to fusion welding techniques. A significant advantage is the ability of FSW to weld the entire or nearly the entire wall thickness in a single pass, while fusion welding requires multiple passes. However, when FSW is applied to a pipe or tube geometry, an internal back support anvil is required to resist the plunging forces exerted during FSW. Unfortunately, it may not be convenient or economical to use internal backing support due to limited access for some applications. To overcome this issue, ExxonMobil recently developed a new concept, combining root arc welding and FSW. That is, a root arc weld is made prior to FSW that supports the normal loads associated with FSW. In the present work, mechanical properties of a FSW + root arc welded pipe steel are reported including microstructure and microhardness.

AB - Friction stir welding (FSW) has recently attracted attention as an alternative construction process for gas/oil transportation applications due to advantages compared to fusion welding techniques. A significant advantage is the ability of FSW to weld the entire or nearly the entire wall thickness in a single pass, while fusion welding requires multiple passes. However, when FSW is applied to a pipe or tube geometry, an internal back support anvil is required to resist the plunging forces exerted during FSW. Unfortunately, it may not be convenient or economical to use internal backing support due to limited access for some applications. To overcome this issue, ExxonMobil recently developed a new concept, combining root arc welding and FSW. That is, a root arc weld is made prior to FSW that supports the normal loads associated with FSW. In the present work, mechanical properties of a FSW + root arc welded pipe steel are reported including microstructure and microhardness.

KW - Friction stir welding

KW - Hybrid approach

KW - Mechanical properties

KW - Pipe steel

KW - Root arc weld

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SP - 55

EP - 68

BT - Friction Stir Welding and Processing VIII

PB - Springer International Publishing

ER -

Study of mechanical properties and characterization of pipe steel welded by hybrid (friction stir weld + root arc weld) approach

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Keywords

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