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A review: Interlayer joining of nickel base alloys

Will Reeks, Helen Davies Orcid Logo, Silvia Marchisio

Journal of Advanced Joining Processes, Volume: 2, Start page: 100030

Swansea University Authors: Will Reeks, Helen Davies Orcid Logo

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Abstract

This article provides a comprehensive review of the improvements and results in interlayer bonding of nickel and its alloys to other metal alloys. The development of the interlayer bonding process in joining nickel-based alloys is of high interest to the aerospace and power generation industries, wi...

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Published in: Journal of Advanced Joining Processes
ISSN: 2666-3309
Published: Elsevier BV 2020
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URI: https://cronfa.swan.ac.uk/Record/cronfa55021
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spelling 2021-01-06T16:04:32.1545290 v2 55021 2020-08-19 A review: Interlayer joining of nickel base alloys 56f1e8f91457806b94340e58c6b3a8ab Will Reeks Will Reeks true false a5277aa17f0f10a481da9e9751ccaeef 0000-0003-4838-9572 Helen Davies Helen Davies true false 2020-08-19 FGSEN This article provides a comprehensive review of the improvements and results in interlayer bonding of nickel and its alloys to other metal alloys. The development of the interlayer bonding process in joining nickel-based alloys is of high interest to the aerospace and power generation industries, with the idea of on-site repair of turbine components of focus. History of the diffusion bonding process has been summarized, and bonding parameters and methods for various alloy combinations have been outlined. The relationship between hardness and strength, to the intermetallic compounds and porosity present in the bond region has been illustrated. The literature shows the methods for manipulating the volume of these compounds, and subsequent strength. The paper also shows the microstructural changes that occur during interlayer bonding and how these may be manipulated by changing bonding parameters and interlayer composition. Recent and influential papers have been summarized, with the key findings outlined, the type of interlayer and alloy/s being joined have been headlined for ease of navigation, when available, bond strengths and mechanical property values have been highlighted to illustrate bond soundness. This review does not concern traditional fusion welding methods. Journal Article Journal of Advanced Joining Processes 2 100030 Elsevier BV 2666-3309 Nickel alloys, Interlayer bonding, Diffusion bonding, Dissimilar joining, Titanium alloys 1 7 2020 2020-07-01 10.1016/j.jajp.2020.100030 COLLEGE NANME Science and Engineering - Faculty COLLEGE CODE FGSEN Swansea University UKRI, EGR9515-111 2021-01-06T16:04:32.1545290 2020-08-19T09:06:27.0433949 College of Engineering Engineering Will Reeks 1 Helen Davies 0000-0003-4838-9572 2 Silvia Marchisio 3 55021__18491__616a2b0174de494d9026648245cdbe47.pdf 55021.VOR.pdf 2020-10-25T17:33:37.7731699 Output 3325061 application/pdf Version of Record true Distributed under the terms of a Creative Commons Attribution 4.0 (CC-BY) License. true eng https://creativecommons.org/licenses/by/4.0/
title A review: Interlayer joining of nickel base alloys
spellingShingle A review: Interlayer joining of nickel base alloys
Will Reeks
Helen Davies
title_short A review: Interlayer joining of nickel base alloys
title_full A review: Interlayer joining of nickel base alloys
title_fullStr A review: Interlayer joining of nickel base alloys
title_full_unstemmed A review: Interlayer joining of nickel base alloys
title_sort A review: Interlayer joining of nickel base alloys
author_id_str_mv 56f1e8f91457806b94340e58c6b3a8ab
a5277aa17f0f10a481da9e9751ccaeef
author_id_fullname_str_mv 56f1e8f91457806b94340e58c6b3a8ab_***_Will Reeks
a5277aa17f0f10a481da9e9751ccaeef_***_Helen Davies
author Will Reeks
Helen Davies
author2 Will Reeks
Helen Davies
Silvia Marchisio
format Journal article
container_title Journal of Advanced Joining Processes
container_volume 2
container_start_page 100030
publishDate 2020
institution Swansea University
issn 2666-3309
doi_str_mv 10.1016/j.jajp.2020.100030
publisher Elsevier BV
college_str College of Engineering
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hierarchy_top_title College of Engineering
hierarchy_parent_id collegeofengineering
hierarchy_parent_title College of Engineering
department_str Engineering{{{_:::_}}}College of Engineering{{{_:::_}}}Engineering
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description This article provides a comprehensive review of the improvements and results in interlayer bonding of nickel and its alloys to other metal alloys. The development of the interlayer bonding process in joining nickel-based alloys is of high interest to the aerospace and power generation industries, with the idea of on-site repair of turbine components of focus. History of the diffusion bonding process has been summarized, and bonding parameters and methods for various alloy combinations have been outlined. The relationship between hardness and strength, to the intermetallic compounds and porosity present in the bond region has been illustrated. The literature shows the methods for manipulating the volume of these compounds, and subsequent strength. The paper also shows the microstructural changes that occur during interlayer bonding and how these may be manipulated by changing bonding parameters and interlayer composition. Recent and influential papers have been summarized, with the key findings outlined, the type of interlayer and alloy/s being joined have been headlined for ease of navigation, when available, bond strengths and mechanical property values have been highlighted to illustrate bond soundness. This review does not concern traditional fusion welding methods.
published_date 2020-07-01T04:09:54Z
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score 10.878272