Residual stress, defects and grain morphology of ti-6al-4v alloy produced by ultrasonic impact treatment assisted selective laser melting

Meixia Zhang; Changmeng Liu; Xuezhi Shi; Xianping Chen; Cheng Chen; Jianhua Zuo; Jiping Lu; Shuyuan Ma

doi:10.3390/app6110304

Residual stress, defects and grain morphology of ti-6al-4v alloy produced by ultrasonic impact treatment assisted selective laser melting

Meixia Zhang, Changmeng Liu^*, Xuezhi Shi, Xianping Chen, Cheng Chen, Jianhua Zuo, Jiping Lu, Shuyuan Ma

^*Corresponding author for this work

School of Mechanical Engineering

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

69 Citations (Scopus)

Abstract

For large-scale selective laser melting (SLM) additive manufacturing technology, three main problems severely restrict its development and application, namely the residual stress, defects, and columnar grains with anisotropy. To overcome these problems, a new method is proposed by combining SLM with ultrasonic impact treatment (UIT) technique. This study explores the feasibility of UIT assisted SLM, as well as the effect of UIT on the residual stress, defects and ß grains of Ti-6Al-4V alloy sample. The results indicate that after the application of UIT during SLM, residual stress can be largely reduced and defects can be hammered flat and even eliminated. Meanwhile, the epitaxial growth of columnar grains is prevented, and fine equiaxed grains are formed due to plastic deformation and recrystallization.

Original language	English
Article number	304
Journal	Applied Sciences (Switzerland)
Volume	6
Issue number	11
DOIs	https://doi.org/10.3390/app6110304
Publication status	Published - 25 Oct 2016

Keywords

Defects
Grain
Residual stress
Selective laser melting
Ultrasonic impact treatment

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10.3390/app6110304

Cite this

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title = "Residual stress, defects and grain morphology of ti-6al-4v alloy produced by ultrasonic impact treatment assisted selective laser melting",

abstract = "For large-scale selective laser melting (SLM) additive manufacturing technology, three main problems severely restrict its development and application, namely the residual stress, defects, and columnar grains with anisotropy. To overcome these problems, a new method is proposed by combining SLM with ultrasonic impact treatment (UIT) technique. This study explores the feasibility of UIT assisted SLM, as well as the effect of UIT on the residual stress, defects and {\ss} grains of Ti-6Al-4V alloy sample. The results indicate that after the application of UIT during SLM, residual stress can be largely reduced and defects can be hammered flat and even eliminated. Meanwhile, the epitaxial growth of columnar grains is prevented, and fine equiaxed grains are formed due to plastic deformation and recrystallization.",

keywords = "Defects, Grain, Residual stress, Selective laser melting, Ultrasonic impact treatment",

author = "Meixia Zhang and Changmeng Liu and Xuezhi Shi and Xianping Chen and Cheng Chen and Jianhua Zuo and Jiping Lu and Shuyuan Ma",

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T1 - Residual stress, defects and grain morphology of ti-6al-4v alloy produced by ultrasonic impact treatment assisted selective laser melting

AU - Zhang, Meixia

AU - Liu, Changmeng

AU - Shi, Xuezhi

AU - Chen, Xianping

AU - Chen, Cheng

AU - Zuo, Jianhua

AU - Lu, Jiping

AU - Ma, Shuyuan

PY - 2016/10/25

Y1 - 2016/10/25

N2 - For large-scale selective laser melting (SLM) additive manufacturing technology, three main problems severely restrict its development and application, namely the residual stress, defects, and columnar grains with anisotropy. To overcome these problems, a new method is proposed by combining SLM with ultrasonic impact treatment (UIT) technique. This study explores the feasibility of UIT assisted SLM, as well as the effect of UIT on the residual stress, defects and ß grains of Ti-6Al-4V alloy sample. The results indicate that after the application of UIT during SLM, residual stress can be largely reduced and defects can be hammered flat and even eliminated. Meanwhile, the epitaxial growth of columnar grains is prevented, and fine equiaxed grains are formed due to plastic deformation and recrystallization.

AB - For large-scale selective laser melting (SLM) additive manufacturing technology, three main problems severely restrict its development and application, namely the residual stress, defects, and columnar grains with anisotropy. To overcome these problems, a new method is proposed by combining SLM with ultrasonic impact treatment (UIT) technique. This study explores the feasibility of UIT assisted SLM, as well as the effect of UIT on the residual stress, defects and ß grains of Ti-6Al-4V alloy sample. The results indicate that after the application of UIT during SLM, residual stress can be largely reduced and defects can be hammered flat and even eliminated. Meanwhile, the epitaxial growth of columnar grains is prevented, and fine equiaxed grains are formed due to plastic deformation and recrystallization.

KW - Defects

KW - Grain

KW - Residual stress

KW - Selective laser melting

KW - Ultrasonic impact treatment

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U2 - 10.3390/app6110304

DO - 10.3390/app6110304

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SN - 2076-3417

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JF - Applied Sciences (Switzerland)

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M1 - 304

ER -

Residual stress, defects and grain morphology of ti-6al-4v alloy produced by ultrasonic impact treatment assisted selective laser melting

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Keywords

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