An Overview – The Beginning
Though 3D printing just recently turned into a mainstream subject, its origins trace back into the 80’s when Hideo Kodama of Nagoya Municipal Industrial Research Institute published the earliest accounts of a functioning photopolymer active monitoring system (1981). Soon after that, the first kind of 3D printing, Stereolithography, has been devised by Charles Hull at 1984 (pictured above, picture courtesy of industryweek.com). In stereolithography, an electronic version can be made from images (see the procedure in the diagram below).
This advancement was a massive step forward for technology and could make waves inventors. With this innovation, users can now try out designs and prototypes more efficiently before buying big production batches. Charles Hull went on to launch 3D Systems in 1986 that is present among the most significant 3D printing firms alive now.
In 1992 the initial Stereolithographic Device (or SLA system) was created by 3D Systems
The first SLA machine used a UV laser solidifying photopolymer, a liquid using the viscosity and color of honey which made items layer by layer. This was the very first kind of rapid prototyping which could forever alter the world of design and engineering. A modern-day SLA apparatus is pictured on the right.
SLS is discovered
At roughly precisely the same time, another kind of additive production was in the works, known as Selective Laser Sintering or SLS. In SLS, a substance in powder form is warmed with a solid laser in just below its melting point, causing the powders to sinter together to make the big 3D object that was meant to be made. This tech patent was registered in 1989 and was licensed to a company named DTM Inc, which was later obtained by 3D Systems.
1989 was also the year that FDM printing was patented by the co-founder of Stratasys, 3D System’s rival company. FDM is a proprietary technology nevertheless held by Stratasys now, however, is also the procedure used by the vast majority of consumer machines (depending on the open source RepRap version, pictured below).
Through the 90’s and 2000’s new technologies continued to be released, nevertheless focused entirely on industrial programs meanwhile development and research were penalized for more special tooling, casting, and production procedures. It was during that time that the expression “Rapid Prototyping” was first coined. Researchers created 3D printed organs for transplant using a patient’s cells and so reducing danger for rejection.
3D Printing and Business
3D printing started to grow into two big businesses. The first was that the high end, costly 3D printing equipment employed in a part manufacturing for high value, highly engineered, complicated pieces. Some businesses who have seen great benefits from such technologies would be the aerospace, automotive, medical and nice jewelry industries.
The next industry comprises the 3d technology whose purpose was to boost concept development and operational prototyping. They have been being developed since wallet-friendly systems which were user-friendly and may be worked in a non-industrial setting. This business is where the current desktop 3D printers emerged out of.
Through the 2000’s 3D printing technologies continued to evolve to add pre-assembled versions with various capabilities. 2007 was a significant year for the arrival of available background 3D printers since the RepRap notion of an open source printer arose, but it was only in 2009 the very first kit printer has been accessible.
Since that time, many more entry-level 3D printer makers have emerged with reduced costs and better precision. This brings us to present day, where pupils as young as faculty are now learning product growth with 3D printing technologies. A desktop 3D printer has become commonplace amongst educational institutions and is a requirement in any engineer’s office. AIO Robotics has altered 3D printing by making the very first standalone All-In-One program, ZEUS, complete with 3D scanning and printing applications fully built from the slicer into the on-board version editor and considerably more. Fully automated calibration and potentially the most user-friendly, intuitive interface makes the learning procedure for 3D printing easy for consumers of all ages. ZEUS empowers even the ones who aren’t knowledgeable about the tech to undergo 3D printing by making the procedure as it needs to be more straightforward.
With this technology available to numerous has changed the character of inventing, which makes it accessible and painless for a lot more individuals to get their thoughts out to the world. 3D printing was touted as a commercial revolution in itself, and we’re honored to be part of it. We can not wait to see what this game-changing technology can direct individuals to make next.
For more information about the history of 3D printing, go to AIO Robotics.