The effect of heat treatment on mechanical properties of pulsed Nd:YAG welded thin Ti6Al4V

Yu Fan; Philip H Shipway; Geoff D. Tansley; Jie Xu

doi:10.4028/www.scientific.net/AMR.189-193.3672

The effect of heat treatment on mechanical properties of pulsed Nd:YAG welded thin Ti6Al4V

Yu Fan, Philip H Shipway, Geoff D. Tansley, Jie Xu

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

Abstract

Pulsed Nd:YAG has been adopted successfully in welding process of thin (0.7 mm) Ti6Al4V. Laser welding of such thin sheet requires a small focal spot, good laser beam quality and fast travel speed, since too much heat generation can cause distortion for thin sheet weld. The microstructures of Ti6Al4V were complex and strongly affected the mechanical properties. These structures include: a´ martensite, metastable ß, Widmanstätten, bimodal, lamellar and equiaxed microstructure. Bimodal and Widmanstätten structures exhibit a good-balance between strength and ductility. The microstructure of pulsed Nd:YAG welded Ti6Al4V was primarily a´ martensite, which showed the lowest ductility but not significantly high strength. A heat treatment at 950 followed by furnace cooling can transform the microstructure in the weld from a´ martensite structure into Widmanstätten structure.

Original language	English
Pages (from-to)	3672-3677
Number of pages	6
Journal	Advanced Materials Research
Volume	189-193
DOIs	https://doi.org/10.4028/www.scientific.net/AMR.189-193.3672
Publication status	Published - 2011

Keywords

heat treatment
pulsed Nd
YAG laser welding
thin
Ti6-Al-4V

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title = "The effect of heat treatment on mechanical properties of pulsed Nd:YAG welded thin Ti6Al4V",

abstract = "Pulsed Nd:YAG has been adopted successfully in welding process of thin (0.7 mm) Ti6Al4V. Laser welding of such thin sheet requires a small focal spot, good laser beam quality and fast travel speed, since too much heat generation can cause distortion for thin sheet weld. The microstructures of Ti6Al4V were complex and strongly affected the mechanical properties. These structures include: a´ martensite, metastable {\ss}, Widmanst{\"a}tten, bimodal, lamellar and equiaxed microstructure. Bimodal and Widmanst{\"a}tten structures exhibit a good-balance between strength and ductility. The microstructure of pulsed Nd:YAG welded Ti6Al4V was primarily a´ martensite, which showed the lowest ductility but not significantly high strength. A heat treatment at 950 followed by furnace cooling can transform the microstructure in the weld from a´ martensite structure into Widmanst{\"a}tten structure.",

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author = "Yu Fan and Shipway, {Philip H} and Tansley, {Geoff D.} and Jie Xu",

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AU - Fan, Yu

AU - Shipway, Philip H

AU - Tansley, Geoff D.

AU - Xu, Jie

PY - 2011

Y1 - 2011

N2 - Pulsed Nd:YAG has been adopted successfully in welding process of thin (0.7 mm) Ti6Al4V. Laser welding of such thin sheet requires a small focal spot, good laser beam quality and fast travel speed, since too much heat generation can cause distortion for thin sheet weld. The microstructures of Ti6Al4V were complex and strongly affected the mechanical properties. These structures include: a´ martensite, metastable ß, Widmanstätten, bimodal, lamellar and equiaxed microstructure. Bimodal and Widmanstätten structures exhibit a good-balance between strength and ductility. The microstructure of pulsed Nd:YAG welded Ti6Al4V was primarily a´ martensite, which showed the lowest ductility but not significantly high strength. A heat treatment at 950 followed by furnace cooling can transform the microstructure in the weld from a´ martensite structure into Widmanstätten structure.

AB - Pulsed Nd:YAG has been adopted successfully in welding process of thin (0.7 mm) Ti6Al4V. Laser welding of such thin sheet requires a small focal spot, good laser beam quality and fast travel speed, since too much heat generation can cause distortion for thin sheet weld. The microstructures of Ti6Al4V were complex and strongly affected the mechanical properties. These structures include: a´ martensite, metastable ß, Widmanstätten, bimodal, lamellar and equiaxed microstructure. Bimodal and Widmanstätten structures exhibit a good-balance between strength and ductility. The microstructure of pulsed Nd:YAG welded Ti6Al4V was primarily a´ martensite, which showed the lowest ductility but not significantly high strength. A heat treatment at 950 followed by furnace cooling can transform the microstructure in the weld from a´ martensite structure into Widmanstätten structure.

KW - heat treatment

KW - pulsed Nd

KW - YAG laser welding

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JO - Advanced Materials Research

JF - Advanced Materials Research

ER -

The effect of heat treatment on mechanical properties of pulsed Nd:YAG welded thin Ti6Al4V

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Keywords

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