Helen Davies scite author profile

Additive manufacturing by selective laser melting (SLM) was used to investigate the effect of laser energy density on 316L stainless steel properties. Point distance and exposure time were varied and their impact on porosity, surface finish, microstructure, density and hardness, was evaluated. The surface roughness was primarily affected by point distance with increased point distance resulting in increased surface roughness, R a , from 10 to 16 μm. Material hardness reached a maximum of 225 HV at 125 J/mm 3 and was related to the material porosity; with increased porosity leading to decreased material hardness. Different types of particle coalescence leading to convex surface features were observed (sometimes referred to as balling); from small ball features at low laser energy density to a mixture of both small and large ball features at high laser energy density. Laser energy density was shown to affect total porosity. The minimum amount of porosity, 0.38 %, was observed at an energy density of 104.52 J/mm 3 .

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Dwell sensitive fatigue in a near alpha titanium alloy at ambient temperature

Bache

Cope

Davies

et al. 1997

International Journal of Fatigue

182

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Effects of hot isostatic pressing on the elastic modulus and tensile properties of 316L parts made by powder bed laser fusion

Lavery

Cherry

Mehmood

et al. 2017

Materials Science and Engineering: A

133

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Bache

Evans

Davies

1997

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Helen Davies

Investigation into the effect of process parameters on microstructural and physical properties of 316L stainless steel parts by selective laser melting

Dwell sensitive fatigue in a near alpha titanium alloy at ambient temperature

Effects of hot isostatic pressing on the elastic modulus and tensile properties of 316L parts made by powder bed laser fusion

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