On direct laser deposited Hastelloy X: dimension, surface finish, microstructure and mechanical properties

F Wang; Xinhua Wu; D Clark

doi:10.1179/026708309X12578491814591

On direct laser deposited Hastelloy X: dimension, surface finish, microstructure and mechanical properties

F Wang, Xinhua Wu, D Clark

Research output: Contribution to journal › Article

72 Citations (Scopus)

Abstract

For the first time, the influence of laser power, scan speed, scan spacing and nominal laser power density on the tensile properties, dimensional accuracy, surface roughness, number of cracks and top surface concavity of samples of Hastelloy X manufactured using a laser powder bed facility, has been assessed systematically on three-dimensional samples. It has been found that the nominal laser power density is the dominant factor, but the influence of scan spacing and scan speed can sometimes be significant. Density of > 99.5% can be obtained using most conditions. Cracks are observed at corners of the samples. An optimised process window can be derived from the above systematic analysis under which the component can be built smoothly, with good surface finish and dimensional accuracy, consistent mechanical properties and the properties are comparable with those of forged products.

Original language	English
Pages (from-to)	344-356
Number of pages	13
Journal	Materials Science and Technology
Volume	27
Issue number	1
DOIs	https://doi.org/10.1179/026708309X12578491814591
Publication status	Published - 1 Jan 2011

Keywords

Hastelloy X
Rapid manufacturing
Laser powder bed
Direct laser deposition

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10.1179/026708309X12578491814591

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abstract = "For the first time, the influence of laser power, scan speed, scan spacing and nominal laser power density on the tensile properties, dimensional accuracy, surface roughness, number of cracks and top surface concavity of samples of Hastelloy X manufactured using a laser powder bed facility, has been assessed systematically on three-dimensional samples. It has been found that the nominal laser power density is the dominant factor, but the influence of scan spacing and scan speed can sometimes be significant. Density of > 99.5% can be obtained using most conditions. Cracks are observed at corners of the samples. An optimised process window can be derived from the above systematic analysis under which the component can be built smoothly, with good surface finish and dimensional accuracy, consistent mechanical properties and the properties are comparable with those of forged products.",

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T1 - On direct laser deposited Hastelloy X: dimension, surface finish, microstructure and mechanical properties

AU - Wang, F

AU - Wu, Xinhua

AU - Clark, D

PY - 2011/1/1

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N2 - For the first time, the influence of laser power, scan speed, scan spacing and nominal laser power density on the tensile properties, dimensional accuracy, surface roughness, number of cracks and top surface concavity of samples of Hastelloy X manufactured using a laser powder bed facility, has been assessed systematically on three-dimensional samples. It has been found that the nominal laser power density is the dominant factor, but the influence of scan spacing and scan speed can sometimes be significant. Density of > 99.5% can be obtained using most conditions. Cracks are observed at corners of the samples. An optimised process window can be derived from the above systematic analysis under which the component can be built smoothly, with good surface finish and dimensional accuracy, consistent mechanical properties and the properties are comparable with those of forged products.

AB - For the first time, the influence of laser power, scan speed, scan spacing and nominal laser power density on the tensile properties, dimensional accuracy, surface roughness, number of cracks and top surface concavity of samples of Hastelloy X manufactured using a laser powder bed facility, has been assessed systematically on three-dimensional samples. It has been found that the nominal laser power density is the dominant factor, but the influence of scan spacing and scan speed can sometimes be significant. Density of > 99.5% can be obtained using most conditions. Cracks are observed at corners of the samples. An optimised process window can be derived from the above systematic analysis under which the component can be built smoothly, with good surface finish and dimensional accuracy, consistent mechanical properties and the properties are comparable with those of forged products.

KW - Hastelloy X

KW - Rapid manufacturing

KW - Laser powder bed

KW - Direct laser deposition

U2 - 10.1179/026708309X12578491814591

DO - 10.1179/026708309X12578491814591

M3 - Article

SN - 1743-2847

VL - 27

SP - 344

EP - 356

JO - Materials Science and Technology

JF - Materials Science and Technology

IS - 1

ER -

On direct laser deposited Hastelloy X: dimension, surface finish, microstructure and mechanical properties

Abstract

Keywords

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