The 3D Printer needs to be bigger is that not right UAW Local 22!! The reality of off-Planet reality is the actual event to landing men and animal alike (think a Canary in the Mine). Reality dictates that no visionary is needed at this junction, Tuesday, November 27, 2018.
The latest landing on Mars is drilling 16ft deep to take a pulse, now reality mandates that the 3D Printer be capable of using that drill to make the module. Module by plan to the blueprint of choice will not only deliver protection from the elements it will also enhance the length of opportunity per planet exploration without the atmosphere being an alarm. After our landing of the moon, as that is the closest and most valuable off-planet location to begin such a task it will remain to be the materials used vs. the explosive devices that compress and both expand space to fit the module per foot to inch capture.
Land is land gentleman and the Caveman by example gave to us gifts, this is the key to understanding fire and the vent.
Introducing two metal 3D printing systems covering the full product life cycle–from prototyping to mass production.
Desktop Metal
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Desktop Metal is a technology company that designs and markets metal 3D printing systems.[4][5] Headquartered in Burlington, Massachusetts,[6][7] the company has raised $277 million in venture funding since its founding[8] from investors such as Google Ventures, BMW,[1] and Ford Motor Company.[8] Desktop Metal launched its first two products in April 2017:[9] the Studio System, a metal 3D printing system[10] catered to engineers and small production runs,[11] and the Production System,[9][12] intended for manufacturers and large-scale printing.[13] Valued at $1.2 billion, Desktop Metal is tied as the fast growing "unicorn" in United States history.[14] In 2018 the company won an Edison Award.[2]
ContentsHistory2015-2016Desktop Metal was founded in October 2015[15] in Cambridge, Massachusetts as a startup company focused on 3D metal printing.[16] Among the seven founders[1] were Ric Fulop[4] and Jonah Myerberg of A123 Systems, Rick Chin of SolidWorks, and Yet-Ming Chiang, Ely Sachs, Chris Schuh,[16] and A. John Hart of the Massachusetts Institute of Technology (MIT).[1] Sachs was known for coining the term 3D printing years earlier.[13] At the time of its founding, the company was developing a process for metal 3D printing that would be fast and small enough for office settings.[17] Xconomy wrote that the company's intent was to create a metal 3D printer that would "churn out parts more quickly" and be "much cheaper, smaller, safer and easier to operate" than alternatives on the market.[12] To eliminate the need for trained personnel to operate the equipment, dangerous features such as lasers were not made a part of the design process.[17] By October 2015 the company had 11 employees,[16] with Ric Fulop as CEO.[17]Initially the company raised around $14 million in startup funding,[17] with leading Series A funders including New Enterprise Associates, Kleiner Perkins, and Lux Capital.[5][16] By the spring of 2016, the company was headquartered in Lexington, Massachusetts and had developed functioning prototypes.[18][4] After former investors injected an additional $34 million into Desktop Metal in April 2016,[4][17] that summer the company raised funding from investors including GE Ventures and Saudi Aramco Energy Ventures.[18] By February 2017, the company had moved its headquarters to Burlington, Massachusetts.[19][7][6] That month the company raised $45 million in a Series C round of venture funding[6][15] led by GV[19] and including participation from BMW iVentures and Lowe's Ventures.[7][6][15] With total raised brought to $97 million,[6][7][15] the capital was used for research and development, with plans to begin selling the first product later that year[7] in a variety of industries.[6] 2017Desktop Metal was collaborating with Ford Motor Company's research and advanced engineering and manufacturing teams by 2017, refining its system to meet manufacturing requirements.[20] Desktop Metal was also working with BMW in Munich to explore eliminating the need to warehouse parts,[6] and companies such as Milwaukee Tools[21] and Jabil Circuit Inc. A U.S. were evaluating the printers for production use.[22] The company revealed two distinct metal 3D printing systems in late April 2017: a studio model and a production model.[9] The Studio System, safe for office settings[23] is designed for rapid printing and the production of small volumes,[11] while the latter is intended for high-speed production of parts.[23] Both systems include a printer, furnace, and cloud-based software to operate the machines,[12] with the ability to print several hundred alloy types.[9] Forbes described the pricing scheme of the products as "competitive," noting the systems cost "10 times less than what's on the market."[13]Stratasys, an investor in Desktop Metal,[5] announced in May 2017 that its resellers would stock Desktop Metal’s products.[24] The World Economic Forum named Desktop Metal to its 2017 Technology Pioneers list of 30 companies in June,[25] and also that month, MIT Technology Review named Desktop Metal among its 50 Smartest Companies in the World for the year.[26] Desktop Metal raised a total of $115 million[27][28][29][21] in a Series D round of funding in July 2017,[28][30] its largest round to that point.[31] New and existing investors participated in the round,[28] for example GE Ventures, Future Fund, Techtronic Industries,[28][31][21][30] and Vertex Ventures.[29] Funds went to R&D, its sales program, and international growth[29][30] and brought the total raised since founding to $212 million.[29][31] By October 2017, the company had 166 employees[3] and offered paid paternity leave.[32] The company began shipping the Studio System in December 2017[20] as part of its "Pioneer" program. The first printer went to Google's Advanced Technology and Products Group[2] and among other early customers were the United States Navy, Built-Rite Tool & Die, and Lumenium.[33] The Production System was scheduled for a 2019 release.[20][8] 2018At the start of 2018, the company was valued at $1.02 billion. By early 2018 the company had been granted two patents for separable support and an interface layer, with around 100 patents pending for around 200 inventions.[2] Among them were Separable Supports, a process that allowed the support structures in the printed objects to be removed by hand.[23] Developed as a DM Labs R&D project, in February 2018 the company previewed Live Parts,[2] a software program for automatically generating printable designs.[34]At CES 2018 Desktop Metal won an emerging tech award from Digital Trends.[34] In 2018 it also won the Rising Star Award at the TCT Awards[2] and a Gold[35] Edison Award.[2] In March 2018, Ford Motor Company led a $65 million investment round in Desktop Metal, with Ford's CTO joining Desktop Metal's board of directors.[36] The investment brought Desktop Metal's cumulative venture funding to $277 million.[8] With a $1.2 billion valuation, by May 2018 Desktop Metal had been named the fast growing "unicorn" in United States history, surpassing $1 billion after 21 months in operation.[14] With distribution in 40 countries, at the time it had 226 employees, 200 of whom were engineers.[2] ProductsPrinter systemsDesktop Metal launched its first two products in April 2017:[9] the Studio System, a metal 3D printing system[10] designed for engineers and small production runs,[11][10] and the Production System,[9][12] intended for manufacturers and large-scale printing.[13] Both systems include two key components: a printer that produces small objects out of metal powders, and a sintering furnace to densify the objects using[21] thermal processes.[13] The systems can print a variety of materials,[37] including steels, copper,[9] aluminum,[38] and alloys such as Inconel. Powders also used in the metal injection molding market[23] are housed in replaceable cartridges[13] made by various metallurgy companies and Desktop Metal.[9] As the process doesn't utilize dangerous lasers,[37] or hazardous materials, the Studio System can be housed inside office spaces[13] with standard wall outlets.[12]The Studio System uses a proprietary technology called Bound Metal Deposition,[10] similar to fused deposition modeling (FDM)[37] where the printer "extrudes a mixture of metal powder and polymers to build up a shape, much as some plastic printers do.” When the shape is complete, it is placed in a furnace which burns away the polymers and “compacts the metal particles by sintering them together at just below their melting point."[11] At that temperature the metal is fused without melting and losing its shape.[9] The sintering causes predictable shrinking, which the system’s software compensates for by making items slightly larger during the printing step.[11] Beyond the printer and furnace, the Studio System also includes a debinder to remove part of the polymer binder before sintering.[30] The Production System uses a printing method where droplets of a binding agent are "jetted" onto a metal powder in heated layers.[12] The method is called Single Pass Jetting, used for quickly producing metal parts.[23] According to the company, the system can process 8,200 cubic centimeters per hour, which is nearly 100 times faster than laser-based systems using powder bed fusion (PBF).[39] It can produce dozens of parts simultaneously.[40] The Production System was named by Popular Science as one of the top engineering innovations of 2017, in the magazine's annual Best of What's New issue.[41] Live Parts softwareDesktop Metal developed Live Parts,[2] an AI software for users to automatically generate printable object designs.[34] The program allows users to input specifications for an object, then creates a computer model which can be printed[42] using any 3-D printing system.[2]See alsoReferences
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