Selective Laser Melting (SLM) is known to cause residual stresses due to the inherent large thermal gradients from high heating and cooling rates during manufacturing. The residual stresses tend to induce distortion, delamination of parts from the base plate as well as cracking because they reduce the threshold flaw size required for crack initiation. These challenges form a barrier to the use of this additive manufacturing method for structural applications for the aerospace industry where high part integrity is a critical requirement. The aim of the study was to evaluate the degree of distortion and crack growth resistance during increasing monotonic loading and cyclic loading of As-built Ti6Al4V parts produced on the Aeroswift high speed SLM process preheated at 200°C. The monotonic loading results are comparable to those of commercial SLM systems but are lower when compared conventional manufacturing methods. The crack growth resistance of the As-built specimen is lower than that of heat treated specimen. Distortion at this preheating temperature is evident at from 12cm away from the base of the cantilever and spreads to height of 3.2mm.
Reference:
Motibane, L.P. et al. 2019. Effect of powder bed preheating on distortion and mechanical properties in high speed selective laser melting. In: Conference of the South African Advanced Materials Initiative (COSSAMI) 2019
Motibane, L. P., Tshabalala, L. C., Mathe, N. R., Hoosain, S. E., & Knutsen, R. (2019). Effect of powder bed preheating on distortion and mechanical properties in high speed selective laser melting. IOP Publishing. http://hdl.handle.net/10204/11261
Motibane, Londiwe P, Lerato C Tshabalala, Ntombizodwa R Mathe, Shaik E Hoosain, and RD Knutsen. "Effect of powder bed preheating on distortion and mechanical properties in high speed selective laser melting." (2019): http://hdl.handle.net/10204/11261
Motibane LP, Tshabalala LC, Mathe NR, Hoosain SE, Knutsen R, Effect of powder bed preheating on distortion and mechanical properties in high speed selective laser melting; IOP Publishing; 2019. http://hdl.handle.net/10204/11261 .
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