Reducing the surface deviation of stereolithography using in‐process techniques
Abstract
Builds on previous research by the authors to establish a mathematical representation of the surface roughness of stereolithography (SL) parts. It is the intention of the research to use this modelling technique as a design tool for defining optimum build orientation and planning post‐process finishing operations. During the development of this model, a number of in‐process attributes inherent in SL were seen to affect surface deviation. Most notably the phenomenon known as “print‐through” on down‐facing planes produces a build orientation envelope of very smooth surfaces. Although capable of providing low roughness over some 50°, print‐through smoothing cannot easily be extended to other angles, hence complementary processes for surface smoothing must be developed. Discusses a number of possible solutions, showing how the generation of a meniscus between layers can prove beneficial in reducing SL surface roughness, hence reducing the need for lengthy manual finishing operations.
Keywords
Citation
Reeves, P.E. and Cobb, R.C. (1997), "Reducing the surface deviation of stereolithography using in‐process techniques", Rapid Prototyping Journal, Vol. 3 No. 1, pp. 20-31. https://doi.org/10.1108/13552549710169255
Publisher
:MCB UP Ltd
Copyright © 1997, MCB UP Limited