Laser sintering of blended Al‐Si powders
Abstract
Purpose
The purpose of this paper is to study the effects of particle size distribution, component ratio, particle packing arrangement, and chemical constitution on the laser sintering behaviour of blended hypoeutectic Al‐Si powders.
Design/methodology/approach
A range of bimodal and trimodal powder blends were created through mixing Al‐12Si and pure aluminium powder. The powder blends were then processed using selective laser sintering to investigate the effect of alloy composition, powder particle size and bed density on densification and microstructural evolution.
Findings
For all of the powder blends the sintered density increases with the specific laser energy input until a saturation level is reached. Beyond this saturation level no further increase in sintered density is obtained for an increase in specific laser energy input. However, the peak density achieved for a given blend varied significantly with the chemical constitution of the alloy, peaking at approximately 9 wt% Si. The tap density of the raw powder mixture (assumed to be representative of bed density) was also a significant factor.
Originality/value
This is the first study to consider the usefulness of silicon as an alloying element in aluminium alloys to be processed by selective laser sintering. In addition the paper outlines the key factors in optimising processing parameters and powder properties in order to attain sound sinterability for direct laser sintered parts.
Keywords
Citation
Olatunde Olakanmi, E., Dalgarno, K.W. and Cochrane, R.F. (2012), "Laser sintering of blended Al‐Si powders", Rapid Prototyping Journal, Vol. 18 No. 2, pp. 109-119. https://doi.org/10.1108/13552541211212096
Publisher
:Emerald Group Publishing Limited
Copyright © 2012, Emerald Group Publishing Limited