Effects of machining surface and laser beam scanning strategy on machinability of selective laser melted Ti6Al4V alloy in milling

Effects of machining surface and laser beam scanning strategy on machinability of selective laser melted Ti6Al4V alloy in milling

Overlapping melting trajectories and partially-melted powders result in poor surface morphology and high surface roughness values (Ra = ~13.34 μm) of selective laser melted (SLMed) Ti6Al4V alloy. Secondary processing of SLMed components is thus an essential finishing operation to produce functional...

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Main Authors: Chenbing Ni, Lida Zhu, Zhongpeng Zheng, Jiayi Zhang, Yun Yang, Ruochen Hong, Yuchao Bai, Wen Feng Lu, Hao Wang
Format: Article
Language:English
Published: Elsevier 2020-09-01
Series:Materials & Design
Subjects:
Selective laser melting
Ti6Al4V
Post-processing
Laser scanning strategy
Surface roughness
Chip morphology
Online Access:http://www.sciencedirect.com/science/article/pii/S0264127520304147
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spelling doaj-9aac769497b04395b3776a4d84f7f90e2020-11-25T02:42:43ZengElsevierMaterials & Design0264-12752020-09-01194108880Effects of machining surface and laser beam scanning strategy on machinability of selective laser melted Ti6Al4V alloy in millingChenbing Ni0Lida Zhu1Zhongpeng Zheng2Jiayi Zhang3Yun Yang4Ruochen Hong5Yuchao Bai6Wen Feng Lu7Hao Wang8School of Mechanical Engineering and Automation, Northeastern University, Shenyang 110819, China; Department of Mechanical Engineering, Faculty of Engineering, National University of Singapore, 9 Engineering Drive 1, 117575, SingaporeSchool of Mechanical Engineering and Automation, Northeastern University, Shenyang 110819, ChinaDepartment of Mechanical Engineering, Faculty of Engineering, National University of Singapore, 9 Engineering Drive 1, 117575, SingaporeDepartment of Mechanical Engineering, Faculty of Engineering, National University of Singapore, 9 Engineering Drive 1, 117575, SingaporeDepartment of Mechanical Engineering, Faculty of Engineering, National University of Singapore, 9 Engineering Drive 1, 117575, SingaporeDepartment of Mechanical Engineering, Faculty of Engineering, National University of Singapore, 9 Engineering Drive 1, 117575, SingaporeDepartment of Mechanical Engineering, Faculty of Engineering, National University of Singapore, 9 Engineering Drive 1, 117575, SingaporeDepartment of Mechanical Engineering, Faculty of Engineering, National University of Singapore, 9 Engineering Drive 1, 117575, SingaporeDepartment of Mechanical Engineering, Faculty of Engineering, National University of Singapore, 9 Engineering Drive 1, 117575, Singapore; Corresponding author.Overlapping melting trajectories and partially-melted powders result in poor surface morphology and high surface roughness values (Ra = ~13.34 μm) of selective laser melted (SLMed) Ti6Al4V alloy. Secondary processing of SLMed components is thus an essential finishing operation to produce functional SLMed parts in precision engineering. This paper investigates the effects of laser scanning strategies (0°, 67.5° and 90° laser scanning schemes) and machining surfaces (top and front surfaces) on the machining performance of SLMed Ti6Al4V alloy in milling, compared with that of annealed ASTM B265 Ti6Al4V alloy. High degree of anisotropy of SLMed Ti6Al4V alloy is reflected in cutting force, surface morphology and surface roughness on different machining surfaces. The machining anisotropy is dominated by the anisotropy of microstructure and mechanical properties of SLMed Ti6Al4V alloy, where the anisotropy weakens following the sequence of 0°, 90° and 67.5° SLMed samples. It is verified that high cutting speed can improve machining anisotropy features of SLMed titanium alloy. The chip shape of SLMed Ti6Al4V alloy is a typical conical spiral chip, and the bending degree and length of chips produced by SLMed Ti6Al4V alloy are larger than those produced by annealed Ti6Al4V alloy.http://www.sciencedirect.com/science/article/pii/S0264127520304147Selective laser meltingTi6Al4VPost-processingLaser scanning strategySurface roughnessChip morphology
collection DOAJ
language English
format Article
sources DOAJ
author Chenbing Ni
Lida Zhu
Zhongpeng Zheng
Jiayi Zhang
Yun Yang
Ruochen Hong
Yuchao Bai
Wen Feng Lu
Hao Wang
spellingShingle Chenbing Ni
Lida Zhu
Zhongpeng Zheng
Jiayi Zhang
Yun Yang
Ruochen Hong
Yuchao Bai
Wen Feng Lu
Hao Wang
Effects of machining surface and laser beam scanning strategy on machinability of selective laser melted Ti6Al4V alloy in milling
Materials & Design
Selective laser melting
Ti6Al4V
Post-processing
Laser scanning strategy
Surface roughness
Chip morphology
author_facet Chenbing Ni
Lida Zhu
Zhongpeng Zheng
Jiayi Zhang
Yun Yang
Ruochen Hong
Yuchao Bai
Wen Feng Lu
Hao Wang
author_sort Chenbing Ni
title Effects of machining surface and laser beam scanning strategy on machinability of selective laser melted Ti6Al4V alloy in milling
title_short Effects of machining surface and laser beam scanning strategy on machinability of selective laser melted Ti6Al4V alloy in milling
title_full Effects of machining surface and laser beam scanning strategy on machinability of selective laser melted Ti6Al4V alloy in milling
title_fullStr Effects of machining surface and laser beam scanning strategy on machinability of selective laser melted Ti6Al4V alloy in milling
title_full_unstemmed Effects of machining surface and laser beam scanning strategy on machinability of selective laser melted Ti6Al4V alloy in milling
title_sort effects of machining surface and laser beam scanning strategy on machinability of selective laser melted ti6al4v alloy in milling
publisher Elsevier
series Materials & Design
issn 0264-1275
publishDate 2020-09-01
description Overlapping melting trajectories and partially-melted powders result in poor surface morphology and high surface roughness values (Ra = ~13.34 μm) of selective laser melted (SLMed) Ti6Al4V alloy. Secondary processing of SLMed components is thus an essential finishing operation to produce functional SLMed parts in precision engineering. This paper investigates the effects of laser scanning strategies (0°, 67.5° and 90° laser scanning schemes) and machining surfaces (top and front surfaces) on the machining performance of SLMed Ti6Al4V alloy in milling, compared with that of annealed ASTM B265 Ti6Al4V alloy. High degree of anisotropy of SLMed Ti6Al4V alloy is reflected in cutting force, surface morphology and surface roughness on different machining surfaces. The machining anisotropy is dominated by the anisotropy of microstructure and mechanical properties of SLMed Ti6Al4V alloy, where the anisotropy weakens following the sequence of 0°, 90° and 67.5° SLMed samples. It is verified that high cutting speed can improve machining anisotropy features of SLMed titanium alloy. The chip shape of SLMed Ti6Al4V alloy is a typical conical spiral chip, and the bending degree and length of chips produced by SLMed Ti6Al4V alloy are larger than those produced by annealed Ti6Al4V alloy.
topic Selective laser melting
Ti6Al4V
Post-processing
Laser scanning strategy
Surface roughness
Chip morphology
url http://www.sciencedirect.com/science/article/pii/S0264127520304147
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