Laser sintering
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מספר מערכת
987012575125405171
Information for Authority record
Name (Hebrew)
סינטור באמצעות ליזר
Name (Latin)
Laser sintering
Other forms of name
Selective laser sintering
See Also From tracing topical name
Sintering
Rapid prototyping
MARC
MARC
Other Identifiers
Wikidata:
Q428412
Library of congress:
sh2018001121
Sources of Information
- Work cat.: 2018020010: Schmid, M. Laser sintering with plastics, 2018:ECIP t.p. (SLS) chapt. 1 (An additive manufacturing (AM) process; Laser sintering (LS): By the introduction of energy, spatially resolved powder particles are fused together using a laser. By overlapping layers of powder, a three-dimensional body is produced. The LS process is currently considered as the AM process that will be able in the future to permanently cross the border between prototyping and functional components)
- Inspec, viewed May 2, 2018(controlled heading Laser sintering; ref from Selective laser sintering)
- Engineering village, viewed May 2, 2018(uncontrolled headings: Laser sintering; Selective laser sintering)
- Applied science and technology, viewed May 2, 2018(controlled headings: Laser sintering; Selective laser sintering)
- Wikipedia, viewed May 2, 2018(Selective laser sintering; SLS; additive manufacturing technique; developed in the mid '80s)
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File:3dprinter.jpg
Rsabbatini at English Wikipedia, CC BY-SA 3.0
Wikipedia description:
Selective laser sintering (SLS) is an additive manufacturing (AM) technique that uses a laser as the power and heat source to sinter powdered material (typically nylon or polyamide), aiming the laser automatically at points in space defined by a 3D model, binding the material together to create a solid structure. It is similar to selective laser melting; the two are instantiations of the same concept but differ in technical details. SLS (as well as the other mentioned AM techniques) is a relatively new technology that so far has mainly been used for rapid prototyping and for low-volume production of component parts. Production roles are expanding as the commercialization of AM technology improves.
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