Graded structure of laser direct manufacturing bulk metallic glass

Yunzhuo Lu; Yongjiang Huang; Jing Wu; Xing Lu; Zuoxiang Qin; Dominik Daisenberger; Yu Lung Chiu

doi:10.1016/j.intermet.2018.10.005

Graded structure of laser direct manufacturing bulk metallic glass

Yunzhuo Lu^*, Yongjiang Huang, Jing Wu, Xing Lu, Zuoxiang Qin, Dominik Daisenberger, Yu Lung Chiu

^*Corresponding author for this work

Metallurgy and Materials

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

12 Citations (Scopus)

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Abstract

Extending the applications of metallic glasses for use as functionally graded materials could mitigate their intrinsic problems such as limited dimensions. Laser direct manufacturing (LDM) technology is an outstanding and reliable technique to fabricate structural-graded materials. Here, a Zr₅₀Ti₅Cu₂₇Ni₁₀Al₈ (Zr50) alloy was chosen as the model material to fabricate metallic glass by the LDM. By optimizing the LDM process through the finite-element simulation, a nearly fully amorphous Zr50 alloy with the thickness of larger than 10 mm was fabricated. The structural gradients, induced by gradual variation of crystallinity, were found in the deposited Zr50 metallic glass.

Original language	English
Pages (from-to)	67-71
Number of pages	5
Journal	Intermetallics
Volume	103
Early online date	11 Oct 2018
DOIs	https://doi.org/10.1016/j.intermet.2018.10.005
Publication status	Published - 1 Dec 2018

Keywords

Amorphous materials
Bulk metallic glass
Functionally graded materials
Laser deposition
Laser direct manufacturing

ASJC Scopus subject areas

Chemistry(all)
Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

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10.1016/j.intermet.2018.10.005Licence: None: All rights reserved

Lu_et_al_Graded_structure_of_laser_Intermetallics_2018
Checked for eligibility 25/10/2018 First published in Intermetallics https://doi.org/10.1016/j.intermet.2018.10.005
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Cite this

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title = "Graded structure of laser direct manufacturing bulk metallic glass",

abstract = "Extending the applications of metallic glasses for use as functionally graded materials could mitigate their intrinsic problems such as limited dimensions. Laser direct manufacturing (LDM) technology is an outstanding and reliable technique to fabricate structural-graded materials. Here, a Zr50Ti5Cu27Ni10Al8 (Zr50) alloy was chosen as the model material to fabricate metallic glass by the LDM. By optimizing the LDM process through the finite-element simulation, a nearly fully amorphous Zr50 alloy with the thickness of larger than 10 mm was fabricated. The structural gradients, induced by gradual variation of crystallinity, were found in the deposited Zr50 metallic glass.",

keywords = "Amorphous materials, Bulk metallic glass, Functionally graded materials, Laser deposition, Laser direct manufacturing",

author = "Yunzhuo Lu and Yongjiang Huang and Jing Wu and Xing Lu and Zuoxiang Qin and Dominik Daisenberger and Chiu, {Yu Lung}",

year = "2018",

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T1 - Graded structure of laser direct manufacturing bulk metallic glass

AU - Lu, Yunzhuo

AU - Huang, Yongjiang

AU - Wu, Jing

AU - Lu, Xing

AU - Qin, Zuoxiang

AU - Daisenberger, Dominik

AU - Chiu, Yu Lung

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Extending the applications of metallic glasses for use as functionally graded materials could mitigate their intrinsic problems such as limited dimensions. Laser direct manufacturing (LDM) technology is an outstanding and reliable technique to fabricate structural-graded materials. Here, a Zr50Ti5Cu27Ni10Al8 (Zr50) alloy was chosen as the model material to fabricate metallic glass by the LDM. By optimizing the LDM process through the finite-element simulation, a nearly fully amorphous Zr50 alloy with the thickness of larger than 10 mm was fabricated. The structural gradients, induced by gradual variation of crystallinity, were found in the deposited Zr50 metallic glass.

AB - Extending the applications of metallic glasses for use as functionally graded materials could mitigate their intrinsic problems such as limited dimensions. Laser direct manufacturing (LDM) technology is an outstanding and reliable technique to fabricate structural-graded materials. Here, a Zr50Ti5Cu27Ni10Al8 (Zr50) alloy was chosen as the model material to fabricate metallic glass by the LDM. By optimizing the LDM process through the finite-element simulation, a nearly fully amorphous Zr50 alloy with the thickness of larger than 10 mm was fabricated. The structural gradients, induced by gradual variation of crystallinity, were found in the deposited Zr50 metallic glass.

KW - Amorphous materials

KW - Bulk metallic glass

KW - Functionally graded materials

KW - Laser deposition

KW - Laser direct manufacturing

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DO - 10.1016/j.intermet.2018.10.005

M3 - Article

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SN - 0966-9795

VL - 103

SP - 67

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JO - Intermetallics

JF - Intermetallics

ER -

Graded structure of laser direct manufacturing bulk metallic glass

Abstract

Keywords

ASJC Scopus subject areas

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