Abstract
SHS investigation development is considered from the geographical and historical viewpoint. 3 stages are described. Within Stage 1 the work was carried out in the Department of the Institute of Chemical Physics in Chernogolovka where the scientific discovery had been made. At Stage 2 the interest to SHS arose in different cities and towns of the former USSR. Within Stage 3 SHS entered the international scene. Now SHS processes and products are being studied in more than 50 countries.
Abstract
Selective Laser Sintering (SLS) is a laser-based additive manufacturing technique capable of printing both metallic and non-metallic three-dimensional physical parts rapidly in the layer-by-layer fashion directly from the CAD models. It is an effective method in rapid prototyping, which forms the layer of material by directing a high-density laser into the bed of metallic or non-metallic powders. SLS can be classified based on the laser medium used and the mechanism of printing. Based on the mechanism, it is classified into direct SLS and indirect SLS. The quality of parts in terms of surface finish, mechanical properties, metallurgical properties, and so on depends on SLS's operating parameters, such as laser parameters, feedstock properties, and geometrical parameters. The SLS printed parts can have properties similar to the wrought material.
Keywords:
Additive manufacturing, Alloys, Ceramics, Direct SLS, Fusion, Hatch space, Indirect SLS, Layer formation, Layered manufacturing, Laser power, Metals, Optical scanning, Particle sintering, Polymers, Post-processing, Powder bed fusion, Rapid prototyping, Selective laser sintering, Scanning speed, Types of laser.
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Authors:Bentham Science Books