Surface quality investigation of alsi10mg thin-walled parts built by selective laser melting

Zahid Atta; Yingfeng Zhang; Arfan Majeed; Muhammad Abid

Surface quality investigation of alsi10mg thin-walled parts built by selective laser melting

Zahid Atta, Yingfeng Zhang, Arfan Majeed, Muhammad Abid

School of Mechanical Engineering

Research output: Contribution to journal › Conference article › peer-review

1 Scopus citations

Abstract

Nowadays, the building of thin-walled metal parts is one of the significant study topics for Additive manufacturing (AM) and selective laser melting (SLM) is broadly applied AM technique for fabrication of thin-walled and lattice structures. Thin-walled parts are largely used in several products of aerospace, aviation, etc. In this study, we have fabricated thin-walled test specimens of AlSi10Mg alloy at various wall thickness from 0.50 mm to 5.0 mm (at 12 different combinations of wall thickness) by using processing parameters of 320 W of laser power, 900 mm/s of scanning speed and 80 µm of hatch distance. The aim of the paper is to investigate the influence of different wall thicknesses on the surface quality of SLM built test specimens.

Original language	English
Journal	Proceedings of International Conference on Computers and Industrial Engineering, CIE
Volume	2019-October
State	Published - 2019
Event	49th International Conference on Computers and Industrial Engineering, CIE 2019 - Beijing, China Duration: 18 Oct 2019 → 21 Oct 2019

Keywords

AlSi10Mg alloy
Selective laser melting
Surface quality
Thin-walled parts

Cite this

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title = "Surface quality investigation of alsi10mg thin-walled parts built by selective laser melting",

abstract = "Nowadays, the building of thin-walled metal parts is one of the significant study topics for Additive manufacturing (AM) and selective laser melting (SLM) is broadly applied AM technique for fabrication of thin-walled and lattice structures. Thin-walled parts are largely used in several products of aerospace, aviation, etc. In this study, we have fabricated thin-walled test specimens of AlSi10Mg alloy at various wall thickness from 0.50 mm to 5.0 mm (at 12 different combinations of wall thickness) by using processing parameters of 320 W of laser power, 900 mm/s of scanning speed and 80 µm of hatch distance. The aim of the paper is to investigate the influence of different wall thicknesses on the surface quality of SLM built test specimens.",

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author = "Zahid Atta and Yingfeng Zhang and Arfan Majeed and Muhammad Abid",

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AU - Atta, Zahid

AU - Zhang, Yingfeng

AU - Majeed, Arfan

AU - Abid, Muhammad

PY - 2019

Y1 - 2019

N2 - Nowadays, the building of thin-walled metal parts is one of the significant study topics for Additive manufacturing (AM) and selective laser melting (SLM) is broadly applied AM technique for fabrication of thin-walled and lattice structures. Thin-walled parts are largely used in several products of aerospace, aviation, etc. In this study, we have fabricated thin-walled test specimens of AlSi10Mg alloy at various wall thickness from 0.50 mm to 5.0 mm (at 12 different combinations of wall thickness) by using processing parameters of 320 W of laser power, 900 mm/s of scanning speed and 80 µm of hatch distance. The aim of the paper is to investigate the influence of different wall thicknesses on the surface quality of SLM built test specimens.

AB - Nowadays, the building of thin-walled metal parts is one of the significant study topics for Additive manufacturing (AM) and selective laser melting (SLM) is broadly applied AM technique for fabrication of thin-walled and lattice structures. Thin-walled parts are largely used in several products of aerospace, aviation, etc. In this study, we have fabricated thin-walled test specimens of AlSi10Mg alloy at various wall thickness from 0.50 mm to 5.0 mm (at 12 different combinations of wall thickness) by using processing parameters of 320 W of laser power, 900 mm/s of scanning speed and 80 µm of hatch distance. The aim of the paper is to investigate the influence of different wall thicknesses on the surface quality of SLM built test specimens.

KW - AlSi10Mg alloy

KW - Selective laser melting

KW - Surface quality

KW - Thin-walled parts

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SN - 2164-8689

VL - 2019-October

JO - Proceedings of International Conference on Computers and Industrial Engineering, CIE

JF - Proceedings of International Conference on Computers and Industrial Engineering, CIE

T2 - 49th International Conference on Computers and Industrial Engineering, CIE 2019

Y2 - 18 October 2019 through 21 October 2019

ER -

Surface quality investigation of alsi10mg thin-walled parts built by selective laser melting

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