EnvisionTEC

EnvisionTEC
Private
Founded 2002
Area served
 Worldwide
Key people
 Al Siblani (CEO)
Products 3D printers
Rapid prototyping solutions
Direct digital manufacturing solutions
Website envisiontec.com

EnvisionTEC is a privately held global company that develops, manufactures and sells more than 40 models of 3D printers based on several distinct process technologies that build objects from digital design files. Founded in 2002, the company now has two corporate headquarters located in Dearborn, Mich., in Metro Detroit, and Gladbeck, Germany. It also has a production facility in the Greater Los Angeles area, as well as additional facilities in Montreal, for materials research, and Kiev, Ukraine, for software development. Today, the company's 3D Printers are used to make prototypes, tooling, production parts and finished products for a wide variety of medical, professional and industrial customers. EnvisionTEC has developed large customer niches in jewelry,[1] dental,[2][3] hearing aid,[4] medical devices,[5] biofabrication[6] and animation.[7]

Technology

Since it filed its first patent in 1999, EnvisionTEC has developed and brought to market several new additive manufacturing technologies used for 3D printing.

Three of those technologies are based on harnessing light as a tool to cure liquid resin into a three-dimensional object based on a digital design files.

EnvisionTEC has also been developing and expanding its process technology beyond DLP and light-based curing technologies, too.

The company's 3D-Bioplotter[11] series now includes a Starter, Developer and Manufacturing model that extrude materials in three dimensions using pressure. Materials range from a viscous paste to a liquid, and are inserted using syringes moving in three dimensions. Air or mechanical pressure is applied to the syringe, which then deposits a strand of material for the length of movement and time the pressure is applied. Parallel strands are plotted in one layer. For the following layer, the direction of the strands is turned over the center of the object, creating a fine mesh with good mechanical properties and mathematically well-defined porosity. The 3D-Bioplotter is frequently used in biofabrication and is being used in a wide range of medical research.[12] Scientists from Northwestern University, for example, have created 3D printed ovary implants using an EnvisionTEC 3D-Bioplotter that may be used one day to treat women experiencing infertility.[13]

At RAPID 2016, North America's preeminent event for 3D printing, EnvisionTEC also launched the SLCOM 1, which creates woven fiber composite objects in a new process developed by EnvisionTEC called Selective Lamination Composite Object Manufacturing.[14] 3D printing industry expert and columnist Todd Grimm wrote that the SLCOM 1 was one of the "interesting and exciting" product announcements made during RAPID 2016.[15]

Also in 2016, EnvisionTEC announced it had formed an "exclusive strategic partnership" with Viridis3D, a Woburn, Mass.-based supplier of additive manufacturing technology for making sand molds and cores for foundry applications.

Products

EnvisionTEC sells more than 40 models of printers that sell for between $10,000 and $1 million.[16] The company's printers are organized into several families of printers: the Micro Plus Family, the Vida Family, the Perfactory Desktop Plus Family, the Perfactory Mini Family the Perfactory Standard Family, the Ultra 3SP Family, the Large Frame Family, the 3D-Bioplotter Family and the SLCOM. EnvisionTEC also markets and sells the Viridis3D RAM123.

In early 2016, EnvisionTEC demonstrated a shift in its strategic direction with the launch of several new models of printers, including the 3D-Bioplotter Starter Series, the SLCOM 1 and RAM123. "Previously known as pioneers in the 3D printing technology of digital light processing (DLP), the U.S.-German company has managed to redefine itself once again by announcing three new platforms at the event: a new bioprinter, a 3D printer for sandcasting and, perhaps its most substantial unveil, a massive industrial 3D printer dedicated to composite manufacturing," according to Engineering.com.[17]

Founder

Al Siblani, CEO, EnvisionTEC

EnvisionTEC was founded by its current owner, Al Siblani, a Lebanese immigrant who came to the United States to complete his higher education. After earning a bachelor's degree in engineering at Lawrence Technological University[18] and a master's degree in electrical and computer engineering from Wayne State University, both located in Metro Detroit, Siblani entered a 3D printing market still in its infancy. He began working in 1993 for an early 3D printing company, Helisys, that used Laminated Object Manufacturing (LOM) technology to create prototypes for automakers and other commercial customers.[19] Shortly thereafter, he founded Sibco Inc., which provided 3D printing services and materials. In 1996, after mastering the 3D printing technologies and materials at the time, Siblani decided to make his own 3D printing machines using a then-novel idea to cure resins into objects. His first patent submission, which laid the foundation for EnvisionTEC, was filed in 1999. In 2015, Siblani was honored as a finalist for the Ernst & Young Entrepreneur of the Year program for the Michigan and Northwest Ohio region.[20]

References

  1. "Frequently Asked Questions 9 - Which 3D Printers and Rapid Prototyping Machines Are the Best For Making Jewellery? - CAD Jewellery Skills". 2014-08-14. Retrieved 2016-08-23.
  2. "Trends in 3D Printing of Customised Medical Devices", Medical Plastic News
  3. ltd, Research and Markets. "US Market for Dental Rapid Prototyping Systems - Research and Markets". www.researchandmarkets.com. Retrieved 2016-08-23.
  4. Rakesh Sharma, "The 3D Printing Revolution You Have Not Heard About", Forbes
  5. ltd, Research and Markets. "Global Healthcare 3D Printers, Applications, Products, Services & Ancillary Market Assessment & Forecast: 2015-2019". www.researchandmarkets.com. Retrieved 2016-08-23.
  6. "Shah Lab research featured by EnvisionTEC, Inc. – Shah Tissue Engineering and Additive Manufacturing (TEAM) Lab". shahlab.northwestern.edu. Retrieved 2016-08-23.
  7. Todd Grimm, "EnvisionTEC Supports Aardman's Latest Feature Film", Engineering.com
  8. Myriam Joire,"Texas Instruments brings sci-fi tech to life with DLP", engadget
  9. EnvisionTEC (2016-07-05), cDLM - Continuous Digital Light Manufacturing, retrieved 2016-08-23
  10. "High Speed Investment Casting: EnvisionTEC Unveils Micro Plus cDLM 3D Printer for Jewelry at JCK Las Vegas | 3DPrint.com". 3dprint.com. Retrieved 2016-08-23.
  11. Kucklick, Theodore R. (December 2012). The Medical Device R & D Handbook (2nd ed.). CRC Press. pp. 158–159. ISBN 978-1-4398-1189-4.
  12. "3D-Bioplotter Papers". envisiontec.com. Retrieved 2016-08-23.
  13. "3D printed ovary implants to treat female infertility successfully tested in mice". Retrieved 2016-08-23.
  14. "EnvisionTEC Reveals SLCOM 1 for 3D printing composites at Rapid 2016". 2016-05-17. Retrieved 2016-08-23.
  15. "Todd Grimm Column: The Million Dollar Question". 2016-07-20. Retrieved 2016-08-23.
  16. Gallagher, John (August 15, 2016). "Dearborn 3D printer rewriting rules of manufacturing".
  17. ENGINEERING.com. "EnvisionTEC Blows Up RAPID with Mega Composite 3D Printer and More > ENGINEERING.com". www.engineering.com. Retrieved 2016-08-23.
  18. lawrencetech (2012-04-16), Ali Siblani 3/22/12, retrieved 2016-08-23
  19. Webster, Sarah (December 2015). "A Master of Innovation, Precision and Disruption" (PDF). SME's Smart Manufacturing magazine.
  20. "EY Entrepreneur Of The Year Program - Michigan and NW Ohio". www.ey.com. Retrieved 2016-08-23.

See also

This article is issued from Wikipedia - version of the 8/24/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.