Solidification Microstructure of Laser Additive Manufactured Ti-6Al-2Zr-2Sn--3Mo-1.5Cr-2Nb Titanium Alloy

Solidification microstructure of powder fed laser additive manufactured Ti-6Al--2Zr--2Sn--3Mo--1.5Cr--2Nb titanium alloy was investigated, The results showed that by deliberately increasing the powder feed rate, partially melted powders were retained at the top of the molten pool, which can promote...

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Published inJournal of materials science & technology Vol. 32; no. 4; pp. 381 - 386
Main Authors Zhang, Qiang, Chen, Jing, Wang, Lilin, Tan, Hua, Lin, Xin, Huang, Weidong
Format Journal Article
LanguageEnglish
Published 01.04.2016
Subjects
Additives
Bonding
Cellular structure
Cladding
Feed rate
Lasers
Microstructure
Titanium base alloys
凝固组织
制造
添加剂
激光
细胞结构
部分熔融
钛合金
随机取向
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Summary:Solidification microstructure of powder fed laser additive manufactured Ti-6Al--2Zr--2Sn--3Mo--1.5Cr--2Nb titanium alloy was investigated, The results showed that by deliberately increasing the powder feed rate, partially melted powders were retained at the top of the molten pool, which can promote heteroge- neous nucleus. Thus, each cladding layer is composed of two regions: (i) randomly orientated cellular structure region caused by partially melted powders at the top of each cladding layer; and (ii) epitaxial cellular structure region adjacent to the fusion line. Usually, randomly orientated cellular structure region was totally remelted for a wide range of process conditions. The remelting effect ensures the continuity of epitaxial growth of cellular structure and leads to the formation of columnar β grains, In order to obtain equiaxed grains the scanning velocity and powder feed rate should be carefully selected to enlarge the randomly orientated cellular structure region,
Bibliography:21-1315/TG
Solidification microstructure of powder fed laser additive manufactured Ti-6Al--2Zr--2Sn--3Mo--1.5Cr--2Nb titanium alloy was investigated, The results showed that by deliberately increasing the powder feed rate, partially melted powders were retained at the top of the molten pool, which can promote heteroge- neous nucleus. Thus, each cladding layer is composed of two regions: (i) randomly orientated cellular structure region caused by partially melted powders at the top of each cladding layer; and (ii) epitaxial cellular structure region adjacent to the fusion line. Usually, randomly orientated cellular structure region was totally remelted for a wide range of process conditions. The remelting effect ensures the continuity of epitaxial growth of cellular structure and leads to the formation of columnar β grains, In order to obtain equiaxed grains the scanning velocity and powder feed rate should be carefully selected to enlarge the randomly orientated cellular structure region
Laser additive manufacturePartially melted powdersEqoiaxed grains
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1005-0302
1941-1162
DOI:10.1016/j.jmst.2015.11.019