This article needs to be updated.(March 2020) |
Company type | Private |
---|---|
Industry | 3D printing/ Selective laser sintering |
Founded | September 2011 |
Founder | Maxim Lobovsky, David Cranor, and Natan Linder |
Headquarters | , |
Revenue | $82.5 million (2021) [1] |
Number of employees | 500 |
Website | formlabs |
Formlabs is a 3D printing technology developer and manufacturer. The Somerville, Massachusetts-based company was founded in September 2011 by three MIT Media Lab students. The company develops and manufactures 3D printers and related software and consumables. It raised nearly $3 million in a Kickstarter campaign and created the Form 1, Form 1+, Form 2, Form Cell, Form 3, Form 3L, Fuse 1, Fuse 1+ and Form Auto stereolithography and selective laser sintering 3D printers and accessories. [2]
Formlabs was founded by Maxim Lobovsky, Natan Linder, and David Cranor, who met as students at the MIT Media Lab while taking a class called "How to Make (almost) Anything". The founders also drew on their experience with MIT's Center for Bits and Atoms Fab Lab program, as well as Lobovsky's experience with the Fab@Home project at Cornell University.
Formlabs was officially founded in September 2011 to develop the first desktop-sized, easy-to-use, and affordable stereolithography 3D printer. Formlabs received early seed funding from investors including Mitch Kapor, Joi Ito, and Eric Schmidt’s Innovation Endeavors.
In November 2012, Formlabs was sued by the industrial 3D printing giant 3D Systems that claimed rights to the stereolithography technology that the Form 1 uses. [3] The lawsuit was dismissed in 2014, after the two parties settled. [4]
In October 2013, Formlabs closed an additional $19 million Series A round of financing led by DFJ Growth, joined by Pitango Venture Capital, Innovation Endeavors, and returning angel investors. [5]
In 2015, Formlabs opened their second office in Berlin, Germany. [6] In August 2015, Michael Sorkin, former co-founder of iGo3D, joined Formlabs to serve as the managing director of their European headquarters. [7]
In August 2016, Formlabs raised $35 million in series B funding led by Foundry Group. [8]
In April 2018, Formlabs raised $30 million in series C funding led by Tyche Partners, with investors including the municipally-owned Shenzhen Capital Group. [9] The company said it would use the funding to expand its product portfolio and scale operations to meet increasing customer demand, particularly from Asia. [10]
In August 2018, Formlabs raised $15 million from New Enterprise Associates, valuing the company at over $1B. As part of that fundraising round, Jeff Immelt was appointed to the company's board of directors. [11]
In May of 2021, Formlabs raised a $150 million Series E round from the Softbank Vision Fund 2, bringing the valuation to $2B. [12]
In September of 2024, Ford Motor Company utilized Formlabs 3D printers to prototype various components for its upcoming Electric Explorer SUV. [13]
In October 2012, Formlabs publicly announced its first product, the Form 1 3D printer, in a Kickstarter campaign that raised a record-breaking $2.95 million in funding [14] making the Form 1 one of the most highly funded crowdfunding projects up until that time. Form 1 3D printers began shipping to backers in May 2013 after months of delayed production. [15] [16] The Form 1 used a 3D printing process known as stereolithography, wherein liquid resin is cured, or hardened, into a solid material by the application of laser light. Although previously available in larger, more expensive machines, the Form 1 offered stereolithography in a smaller, more affordable desktop-class device.
On June 10, 2014, Formlabs released the Form 1+ 3D Printer, which replaced the Form 1 in their product line. Improvements included speed, print quality, and reliability. [17] The Form 1+ was officially sunsetted March 15, 2017. [18]
On September 22, 2015, Formlabs announced the Form 2 printer, including a larger build volume and a wiper. It also switches to a cartridge resin system, instead of bottles that needed to be manually poured into the Form 1 & Form 1+. Third-party resins can be used with Open Mode. [19] The Form 2 was named Best Resin Printer for 2019 by Tom's Guide in their annual rankings. [20] The Form 2 is scheduled to be officially sunsetted in 2023. [21]
On May 5, 2017, Formlabs announced the Form Wash and the Form Cure. Together with the Form 2, they complete the SLA engine. The Form Wash is a washing machine used to automatically clean liquid resin off of printed 3D models. The Form Cure is an ultraviolet postcuring system. After printing, the build platform on the Form 2 can be removed and installed on the Form Wash, which uses an impeller to agitate 3D printed parts in isopropyl alcohol. The Form Cure heats parts up to 80 degrees Celsius and uses thirteen 405 nanometer UV LEDs. [22] [23]
On June 5, 2017, Formlabs announced the Fuse 1, a selective laser sintering 3D printer. It has a much larger build volume than the Form line of printers, a removable build chamber, and uses nylon powder. [24]
On April 2, 2019, Formlabs announced the 4th Generation of their SLA printers, the Form 3 and Form 3L, designed for use by artists, designers, and other professionals. The Form 3 offers a larger print area than the Form 2 as well as Low Force Stereolithography (LFS), a new SLA technology developed by Formlabs that promises smoother surface finish and more detailed prints. The Form 3L utilizes the same optics engine as the Form 3, including LFS, with five times the build volume. Additional improvements include an upgraded optics engine, modular components to simplify repair and integrated sensors to improve print success and usability. This earned it the title of Best Resin Printer of 2019 by The Mediahq. [25]
On November 12, 2019, Formlabs launched the Form 3B, a variant of the Form 3 specially designed for the dental industry. Unlike the Form 3, the Form 3B is compatible with Formlabs' array of specialty dental materials. [26] The only exception is Form 3 printers designated "Early 2019" which retain the dental material capabilities from its initial release. [27]
In 2020, the company launched Form 3BL, which features the larger platform of the Form 3L, along with the material capabilities of the Form 3B. [28]
In 2022 at CES, the company announced the Form 3+ and Form 3B+ which are updated versions of the Form 3/3B with improved LPU/Laser stability, better heating and monitoring of the build chamber, true light touch supports, and the new build platform 2, which uses a flexible stainless steel sheet held with magnets to a base in order to make removing the parts from the build plate faster and easier than the original build platform the first shipped with the Form 2. [29]
On June 5, 2017, Formlabs announced the Form Cell, a cell of Form 2 3D printers, as well as a Form Wash and a robotic gantry system. It is completely automated and can be used as a 24-hour digital "factory". [30]
Formlabs provides a free software package called PreForm, designed to prepare 3D models for printing on the Form 1, Form 1+, Form 2, Form 3, and Fuse 1. Some of the features of PreForm include automatic model orientation and support structure generation. [31]
As the COVID-19 pandemic took off in March 2020, Formlabs, working with, Northwell Health and the University of South Florida developed a 3D printed nasopharyngeal swab made from biocompatible resins. After receiving FDA Class I Exempt status, Formlabs quickly went into production; its printing facility in Ohio was initially able to produce 150,000 swabs daily, and the design was released so that hospitals with their own printers can make swabs. Northwell and the University of South Florida were each immediately able produce 1,500 swabs daily with printers they already had. [32] [33] [34]
In January of 2023 at CES, Formlabs announced the successor to its Form Cell program by introducing the Form Auto. The Form Auto automates the Form 3 printer and enables users to remotely open the cover, start prints, and clear parts off the build platform. [35]
On April 17th, 2024, Formlabs announced its fourth generation printer the Form 4. [36] This is the first Formlabs printer to use a LCD screen as opposed to lasers used in the first three generations of machines.
On October 17, 2024, Formlabs unveiled the Form 4L, its latest large-format SLA printer. This model is notable for being the first to utilize an LCD screen instead of lasers, enhancing printing speed and efficiency. The Form 4L also features a developer platform that allows users to customize materials and workflows for specific applications. [37]
Formlabs is featured in Print the Legend , [2] a documentary that tells the stories of several leading companies in the desktop 3D printer industry. The film premiered at SXSW in March 2014, and was released internationally on Netflix [38] on September 26, 2014.
Stereolithography is a form of 3D printing technology used for creating models, prototypes, patterns, and production parts in a layer by layer fashion using photochemical processes by which light causes chemical monomers and oligomers to cross-link together to form polymers. Those polymers then make up the body of a three-dimensional solid. Research in the area had been conducted during the 1970s, but the term was coined by Chuck Hull in 1984 when he applied for a patent on the process, which was granted in 1986. Stereolithography can be used to create prototypes for products in development, medical models, and computer hardware, as well as in many other applications. While stereolithography is fast and can produce almost any design, it can be expensive.
3D printing or additive manufacturing is the construction of a three-dimensional object from a CAD model or a digital 3D model. It can be done in a variety of processes in which material is deposited, joined or solidified under computer control, with the material being added together, typically layer by layer.
3D Systems Corporation is an American company based in Rock Hill, South Carolina, that engineers, manufactures, and sells 3D printers, 3D printing materials, 3D printed parts, and application engineering services. The company creates product concept models, precision and functional prototypes, master patterns for tooling, as well as production parts for direct digital manufacturing. It uses proprietary processes to fabricate physical objects using input from computer-aided design and manufacturing software, or 3D scanning and 3D sculpting devices.
Rapid prototyping is a group of techniques used to quickly fabricate a scale model of a physical part or assembly using three-dimensional computer aided design (CAD) data. Construction of the part or assembly is usually done using 3D printing or "additive layer manufacturing" technology.
Digital modeling and fabrication is a design and production process that combines 3D modeling or computing-aided design (CAD) with additive and subtractive manufacturing. Additive manufacturing is also known as 3D printing, while subtractive manufacturing may also be referred to as machining, and many other technologies can be exploited to physically produce the designed objects.
Stratasys, Ltd. is an American-Israeli manufacturer of 3D printers, software, and materials for polymer additive manufacturing as well as 3D-printed parts on-demand. The company is incorporated in Israel. Engineers use Stratasys systems to model complex geometries in a wide range of polymer materials, including: ABS, polyphenylsulfone (PPSF), polycarbonate (PC) and polyetherimide and Nylon 12.
Objet Geometries is one of the brands of Stratasys, a 3D printer developing company. The brand began with Objet Geometries Ltd, a corporation engaged in the design, development, and manufacture of photopolymer 3D printing systems. The company, incorporated in 1998, was based in Rehovot, Israel. In 2011 the company merged with Stratasys. It held patents on a number of associated printing materials that are used in PolyJet and PolyJet Matrix polymer jetting technologies. It distributed 3D printers worldwide through wholly owned subsidiaries in the United States, Europe, and Hong Kong. Objet Geometries owned more than 50 patents and patent-pending inventions.
Solid Concepts, Inc. is a custom manufacturing company engaged in engineering, manufacturing, production, and prototyping. The company is headquartered in Valencia, California, in the Los Angeles County area, with six other facilities located around the United States. Solid Concepts is an additive manufacturing service provider as well as a major manufacturer of business products, aerospace, unmanned systems, medical equipment and devices, foundry cast patterns, industrial equipment and design, and transportation parts.
Hyrel 3D is a company which manufactures 3D Printers for home, office and industrial settings, and is based in Atlanta, GA. Hyrel 3D makes modular manufacturing machines that are capable of additive and subtractive processes, including fused deposition modeling. These systems use interchangeable heads that are used to create three-dimensional solid or hollow objects from a digital model, which can be designed or produced from a scan.
This article contains a list of 3D printers.
Zortrax is a Polish manufacturer of 3D printers and filaments for SMB market and rapid prototyping for industries, including robotics and automation, architecture, industrial design, engineering, aviation, industrial automation. Zortrax machines work with dedicated software, firmware and filaments.
Fused filament fabrication (FFF), also known as fused deposition modeling, or filament freeform fabrication, is a 3D printing process that uses a continuous filament of a thermoplastic material. Filament is fed from a large spool through a moving, heated printer extruder head, and is deposited on the growing work. The print head is moved under computer control to define the printed shape. Usually the head moves in two dimensions to deposit one horizontal plane, or layer, at a time; the work or the print head is then moved vertically by a small amount to begin a new layer. The speed of the extruder head may also be controlled to stop and start deposition and form an interrupted plane without stringing or dribbling between sections. "Fused filament fabrication" was coined by the members of the RepRap project to give an acronym (FFF) that would be legally unconstrained in its use.
EnvisionTEC is a privately held global company that develops, manufactures and sells more than 40 configurations of desktop and production 3D printers based on seven several distinct process technologies that build objects from digital design files. Founded in 2002, the company now has a corporate headquarters for North America, located in Dearborn, Mich., and International headquarters in Gladbeck, Germany. It also has a production facility in the Greater Los Angeles area, as well as additional facilities in Montreal, for materials research, in Kyiv, Ukraine, for software development, and in Woburn, Mass, for robotic 3D printing research and development. Today, the company's 3D Printers are used for mass customized production and to manufacture finished goods, investment casting patterns, tooling, prototypes and more. EnvisionTEC serves a variety of medical, professional and industrial customers. EnvisionTEC has developed large customer niches in the jewelry, dental, hearing aid, medical device, biofabrication and animation industries. EnvisionTEC is one of the few 3D printer companies globally whose products are being used for real production of final end-use parts.
Kudo3D, based in Dublin, California, manufactures professional desktop 3D printers. Its Titan 1 and Titan 2 3D printer use a proprietary passive self-peeling technology, making it one of the leading professional high-resolution stereolithography printers. This technology allows both the Titan 1 and Titan 2 to be used in printing for various applications.
In design for additive manufacturing (DFAM), there are both broad themes and optimizations specific to a particular AM process. Described here is DFM analysis for stereolithography, in which design for manufacturability (DFM) considerations are applied in designing a part to be manufactured by the stereolithography (SLA) process. In SLA, parts are built from a photocurable liquid resin that cures when exposed to a laser beam that scans across the surface of the resin (photopolymerization). Resins containing acrylate, epoxy, and urethane are typically used. Complex parts and assemblies can be directly made in one go, to a greater extent than in earlier forms of manufacturing such as casting, forming, metal fabrication, and machining. Realization of such a seamless process requires the designer to take in considerations of manufacturability of the part by the process. In any product design process, DFM considerations are important to reduce iterations, time and material wastage.
A variety of processes, equipment, and materials are used in the production of a three-dimensional object via additive manufacturing. 3D printing is also known as additive manufacturing, because the numerous available 3D printing process tend to be additive in nature, with a few key differences in the technologies and the materials used in this process.
Multi-material 3D printing is the additive manufacturing procedure of using multiple materials at the same time to fabricate an object. Similar to single material additive manufacturing it can be realised through methods such as FFF, SLA and Inkjet 3D printing. By expanding the design space to different materials, it establishes the possibilities of creating 3D printed objects of different color or with different material properties like elasticity or solubility. The first multi-material 3D printer Fab@Home became publicly available in 2006. The concept was quickly adopted by the industry followed by many consumer ready multi-material 3D printers.
Markforged Holding Corporation is an American public additive manufacturing company that designs, develops, and manufactures The Digital Forge — an industrial platform of 3D printers, software and materials that enables manufacturers to print parts at the point-of-need. The company is headquartered in Waltham, Massachusetts, in the Greater Boston Area. Markforged was founded by Gregory Mark and the chief technology officer (CTO) David Benhaim in 2013. It produced the first 3D printers capable of printing continuous carbon fiber reinforcement and utilizes a cloud architecture.
High-area rapid printing (HARP) is a stereolithography (SLA) method that permits the continuous, high-throughput printing of large objects at rapid speeds. This method was introduced in 2019 by the Mirkin Research Group at Northwestern University in order to address drawbacks associated with traditional SLA manufacturing processes. Since the polymerization reactions involved in SLA are highly exothermic processes, the production of objects at high-throughputs is associated with high temperatures that can result in structural defects. HARP addresses this problem by utilizing a solid-liquid slip boundary that cools the resin by withdrawing heat from the system. This allows for large structures to be fabricated quickly without the temperature-associated defects inherent to other SLA processes.
A 3D printed medication is a customized medication created using 3D printing techniques, such as 3D printed tablets. It allows for precise control over the composition and dosage of drugs, enabling the production of personalized medicine tailored to an individual's specific needs, such as age, weight, and medical condition. This approach can be used to improve the effectiveness of drug therapies and to reduce side effects.
The result, announced by the company in May, was a $30m investment from a group that included Shenzhen Capital Group, a venture capital firm launched in the late 1990s by the southern city's municipal government.