Robin Ward scite author profile

a b s t r a c tIn this study, the development of surface structure and porosity of Ti-6Al-4V samples fabricated by selective laser melting under different laser scanning speeds and powder layer thicknesses has been studied and correlated with the melt flow behaviour through both experimental and modelling approaches. The as-fabricated samples were investigated using optical microscopy (OM) and scanning electron microscopy (SEM). The interaction between laser beam and powder particles was studied by both high speed imaging observation and computational fluid dynamics (CFD) calculation. It was found that at a high laser power and a fixed powder layer thickness (20 lm), the samples contain particularly low porosity when the laser scanning speeds are below 2700 mm/s. Further increase of scanning speed led to increase of porosity but not significantly. The porosity is even more sensitive to powder layer thickness with the use of thick powder layers (above 40 lm) leading to significant porosity. The increase of porosity with laser scanning speed and powder layer thickness is not inconsistent with the observed increase in surface roughness complicated by increasingly irregular-shaped laser scanned tracks and an increased number of discontinuity and cave-like pores on the top surfaces. The formation of pores and development of rough surfaces were found by both high speed imaging and modelling, to be strongly associated with unstable melt flow and splashing of molten material.

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Fluid and particle dynamics in laser powder bed fusion

Bidare

et al. 2018

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Influence of processing conditions on strut structure and compressive properties of cellular lattice structures fabricated by selective laser melting

Qiu

Sheng

Adkins

et al. 2015

Materials Science and Engineering: A

315

136

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a b s t r a c tAlSi10Mg cellular lattice structures have been fabricated by selective laser melting (SLM) using a range of laser scanning speeds and powers. The as-fabricated strut size, morphology and internal porosity were investigated using optical microscopy (OM), scanning electron microscopy (SEM) and X-ray microtomography (micro-CT) and correlated to the compressive properties of the structure. Strut diameter was found to increase monotonically with laser power while the porosity was largest at intermediate powers.Laser scanning speed was found to thicken the struts only at slow rates while the porosity was largest at intermediate speeds. High speed imaging showed the melt pool to be larger at high laser powers. Further the melt pool shape was found to vary cyclically over time, steadily growing before becoming increasingly instable and irregularly shaped before abruptly falling in size due to splashing of molten materials and the process repeating. Upon compressive loading, lattice deformation was homogeneous prior to the peak stress before falling sharply due to the creation of a (one strut wide) shear band at around 451 to the compression axis. The specific yield strength expressed as the yield stress/(yield stress of the aluminium Â relative density) is not independent of processing conditions, suggesting that further improvements in properties can be achieved by process optimisation. Lattice struts failed near nodes by a mixture of ductile and brittle fracture.

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Linear friction welding of Ti–6Al–4V: Modelling and validation

et al. 2011

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Selective laser melting of AlSi10Mg: Influence of post-processing on the microstructural and tensile properties development

Tradowsky¹,

et al. 2016

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Robin Ward

On the role of melt flow into the surface structure and porosity development during selective laser melting

Fluid and particle dynamics in laser powder bed fusion

Influence of processing conditions on strut structure and compressive properties of cellular lattice structures fabricated by selective laser melting

Linear friction welding of Ti–6Al–4V: Modelling and validation

Selective laser melting of AlSi10Mg: Influence of post-processing on the microstructural and tensile properties development

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