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Selective Laser Sintering (SLS) is a powerful 3D printing technology that produces highly accurate and durable parts that are capable of being used directly in end-use, low-volume production, or for rapid prototyping.
An additive manufacturing layer technology, SLS involves the use of a high power laser (for example, a carbon dioxide laser) to fuse small particles of plastic powders into a mass that has a desired three-dimensional shape. The laser selectively fuses powdered material by scanning cross-sections generated from a 3-D digital description of the part (for example from a CAD file or scan data) on the surface of a powder bed. After each cross-section is scanned, the powder bed is lowered by one layer thickness, a new layer of material is applied on top, and the process is repeated until the part is completed.
Download the SLS Design Guide.
Aluminum Material description
Applications for 3D Printing
3D Printing for Industrial Applications
3D printing is very versatile and can be set up for relatively hands-free production, which makes them ideal
for many industries including automotive, electronics, aerospace & defense, robotics, and medical.
Aerospace & Defense
Oil & Gas
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SyncFab offers an industry-leading online 3D printing service. Whether you need prototypes or production parts, we can make them for you in as fast as a day. We are your one-stop shop for accurate, precise custom 3D printed parts at a low cost. Upload your 3D CAD file to get a quote.
We use the latest additive manufacturing processes to build affordable functional prototypes & end-use parts in all metals and plastics. You can explore our materials below. We offer high-quality 3D printing processes including selective laser sintering, fused deposition modeling, stereolithography, direct metal laser sintering, polyjet, Carbon DLS, and HP Multi Jet Fusion.
Advantages of 3D printing
3D Printing with SyncFab
A Brief History Of 3D Printing
Additive manufacturing, also called 3D Printing, began in earnest in the early 1980s. The first patent application for an additive rapid prototyping technology was filed by Dr. Hideo Kodama in Japan in 1980, though he did not receive a patent due to his failure to submit the full patent specification within one year.
In July of 1984, a group of French inventors filed a patent for stereolithography (SLA) 3D printing – a process in which layers are added to a part curing photopolymers with ultraviolet light lasers. The French patent was later abandoned due to Three weeks later, Chuck Hull, an American working who later founded 3D Systems, filed his own patent for SLA. Hull also invented the STL file format.
In the late ‘80s 3D printing took another step forward. In 1987, Carl Deckard of the University of Texas filed a patent for Selective Laser Sintering; his application was granted in 1989.
Next, S. Scott Crump, the founder of Stratasys, developed fused deposition modeling (FDM) in 1988. Stratasys was granted the patent in 1992 and soon after would launch one of the first commercially successful FDM machines. In addition, EOS, another prominent 3D printer company, was founded by Hans Langer in 1989.
Through the ‘90s and early 2000s, new technologies continued to be introduced, thought most were focused on expensive industrial applications. Companies like Solidscape, ZCorporation and Arcam were launched during this period and the selective laser melting (SLM) process was developed during this time. The market for both high-end printers and more prototyping-focused, less expensive machines both grew in this era.
It took years – until 2009 – that the first widely available commercial 3D printers went on sale. It was also about this time that the first commercial 3d printing services began to appear. Since this time, both industrial and personal 3D machines have improved in quality and gotten less expensive. In 2013, two NASA employees Samantha Snabes and Matthew Fiedler launched their large-format, affordable 3D printer, Gigabot and a new company called re:3D. Since then, 3D printers have become even more accessible.
The 3D printing services space continued to grow with the launch of SyncFab in 2014. Since then, SyncFab has offered instant quotes on custom parts with fast lead times to everyone from solo entrepreneurs to Fortune 500 companies. SyncFab now offers six 3D printing processes: selective laser sintering, fused deposition modeling, stereolithography, direct metal laser sintering (metal), PolyJet 3D, and HP MultiJet Fusion, a faster, less expensive advanced process from Hewlett Packard.
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