Residual stress reduction in high pressure interpass rolled wire+ arc additive manufacturing Ti--6Al--4V components

Filomeno Martina; Matthew Roy; Paul A. Colegrove; W Stewart

Residual stress reduction in high pressure interpass rolled wire+ arc additive manufacturing Ti--6Al--4V components

Filomeno Martina
, Matthew Roy
, Paul A. Colegrove
, W Stewart

Cranfield University

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

Abstract

Wire+arc additive manufacturing (WAAM) components are characterised by high residual stress due to the many consecutive deposition passes. Residual stress results in distortion once the part is unclamped. High-pressure rolling was investigated as a way to address this issue in Ti–6Al–4V linear parts. Rolling loads of 50 kN and 75 kN were investigated. Residual stress measurements, performed with the contour method, showed rolling was successful in reducing residual stress substantially, especially at the interface between the part and the baseplate. High-pressure interpass rolling is likely to facilitate the implementation of WAAM for the manufacture of structural aerospace components.

Original language	English
Title of host publication	Proc. 25th Int. Solid Freeform Fabrication Symp
Pages	1-6
Number of pages	6
Publication status	Published - 2014

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This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

@inproceedings{50954659e792455a8ba1acacbd4c873e,

title = "Residual stress reduction in high pressure interpass rolled wire+ arc additive manufacturing Ti--6Al--4V components",

abstract = "Wire+arc additive manufacturing (WAAM) components are characterised by high residual stress due to the many consecutive deposition passes. Residual stress results in distortion once the part is unclamped. High-pressure rolling was investigated as a way to address this issue in Ti–6Al–4V linear parts. Rolling loads of 50 kN and 75 kN were investigated. Residual stress measurements, performed with the contour method, showed rolling was successful in reducing residual stress substantially, especially at the interface between the part and the baseplate. High-pressure interpass rolling is likely to facilitate the implementation of WAAM for the manufacture of structural aerospace components.",

author = "Filomeno Martina and Matthew Roy and Colegrove, \{Paul A.\} and W Stewart",

year = "2014",

language = "English",

pages = "1--6",

booktitle = "Proc. 25th Int. Solid Freeform Fabrication Symp",

}

TY - GEN

T1 - Residual stress reduction in high pressure interpass rolled wire+ arc additive manufacturing Ti--6Al--4V components

AU - Martina, Filomeno

AU - Roy, Matthew

AU - Colegrove, Paul A.

AU - Stewart, W

PY - 2014

Y1 - 2014

N2 - Wire+arc additive manufacturing (WAAM) components are characterised by high residual stress due to the many consecutive deposition passes. Residual stress results in distortion once the part is unclamped. High-pressure rolling was investigated as a way to address this issue in Ti–6Al–4V linear parts. Rolling loads of 50 kN and 75 kN were investigated. Residual stress measurements, performed with the contour method, showed rolling was successful in reducing residual stress substantially, especially at the interface between the part and the baseplate. High-pressure interpass rolling is likely to facilitate the implementation of WAAM for the manufacture of structural aerospace components.

AB - Wire+arc additive manufacturing (WAAM) components are characterised by high residual stress due to the many consecutive deposition passes. Residual stress results in distortion once the part is unclamped. High-pressure rolling was investigated as a way to address this issue in Ti–6Al–4V linear parts. Rolling loads of 50 kN and 75 kN were investigated. Residual stress measurements, performed with the contour method, showed rolling was successful in reducing residual stress substantially, especially at the interface between the part and the baseplate. High-pressure interpass rolling is likely to facilitate the implementation of WAAM for the manufacture of structural aerospace components.

UR - https://repositories.lib.utexas.edu/server/api/core/bitstreams/541f9720-e395-4cb6-acc0-ed5f0b95d855/content

M3 - Conference contribution

SP - 1

EP - 6

BT - Proc. 25th Int. Solid Freeform Fabrication Symp

ER -

Residual stress reduction in high pressure interpass rolled wire+ arc additive manufacturing Ti--6Al--4V components

Abstract

UN SDGs

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