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Made In Space, Inc.

Made In Space, Inc.

Company developing space manufacturing technologies to support exploration, national security, and sustainable space settlement.

Made In Space, Inc. is a company developing space manufacturing technology to support exploration, national security, and sustainable space settlement. They combine additive manufacturing (3D printing) with robotic assembly and autonomous quality verification to produce functional structures built in space.

Manufacturing in space has many benefits, including:

  • Production of custom tools and parts, reducing the dependence on terrestrial resupply.
  • Reduced volume by launching dense 3D printer feedstock.
  • Structures aren't subjected to the forces during launch allowing more fragile designs that reduce mass.
  • Enable crafts to deploy large surface area power systems and reflectors.
  • Manufacture of space-enabled materials that cannot be produced on Earth due to constraints from gravity. Microgravity lets materials grow without encountering surfaces, and allows them to mix evenly and hold together without traditional supports.


The company was founded in August 2010 by Aaron Kemmer, Jason Dunn, Michael Snyder, and Mike Chen who met at Singularity University. The company’s headquarters are in Jacksonville, Florida with facilities in Mountain View, California and Huntsville, Alabama.

Made In Space has been awarded numerous grants and contracts from NASA. In July 2019, Made In Space was awarded a $73.7M NASA contract to additively manufacture ten-meter beams onboard Archinaut One, a small satellite scheduled to launch in 2022.

Type 1 Ventures, Space Angels, Starlight Ventures, and Starbridge Venture Capital have made investments in the company.

Capabilities and Technology
Space Optimized Structures

Manufacturing optimized structures in space such as communication antennae, large scale space telescopes, large surface area power systems, and other complex structures reduces volume limits for spacecraft.

Made In Space is a partner in the Archinaut project, a satellite set for launch in 2022. Onboard Archinaut One will be a Made In Space 3D printer and robotic arm to manufacture two ten-meter-long wings of solar arrays. This approach is estimated to produce five times more power than a traditional solar panel on a similar size spacecraft.

The Optimast-SCI (Structurally Connected Interferometer) satellite employs extended structure manufacturing technology, validated in the Archinaut Development Program, to allow the deployment of a 10-50 meter optical boom interferometer from a smallsat bus. The satellite relies on autonomous, robotic in-space manufacturing and assembly to enable larger, effective apertures.

The Archinaut is able to provide solar array systems for power improvements, implement key technologies for on-orbit refueling and resupply missions, the ability to reconfigure launch infrastructures from assets ordinarily known as space debris, remote sensing, telecommunications, as well as baseline interferometry for exploring multiple investigative applications.

Space Enabled ZBLAN Optical Fiber

Zirconium barium lanthanum aluminum sodium fluoride (ZBLAN) fibers have data transmission advantages compared to silica optical fibers. ZBLAN fibers manufactured on Earth contain flaws that cause signal loss making it commercially inviable. Earth's gravity causes the heavier elements to settle and the lighter elements to rise to the top producing a non-uniform material.

The Made In Space Fiber Optics (MIS Fiber) miniature fiber-pulling machine harnesses the unique properties of the microgravity environment to produce ZBLAN optical fiber. In January 2018, the first ZBLAN optical fiber was manufactured on the International Space Station (ISS). Made in Space has partnered with Thorlabs to industrialize the production of optical fiber in space.

Space Enabled Industrial Crystals

Made In Space's Industrial Crystal Facility (ICF) is designed to explore the growth and formulation of inorganic large single crystals and other exotic materials in microgravity. Terrestrial systems are either high-temperature frequency-limited or low-temperature and confounded by gravity effects. Intended applications include nonlinear optical single crystals and other relatively large material formulations, such as bulk single-crystal thin films and high-temperature optical fiber.

Additive Manufacturing

The Additive Manufacturing Facility (AMF) is the first permanent commercial manufacturing platform to operate in low Earth orbit. AMF is installed onboard the ISS, since its activation in 2016 it has produced over 200 tools, assets, and parts in orbit.

Hybrid Metal Manufacturing

Made In Space's VULCAN system combines several manufacturing technologies into one system to produce precision metallic, polymer and hybrid parts. Utilizing additive and subtractive manufacturing, VULCAN is able to produce high-strength, high-precision polymer and metallic components in orbit. The system can be upgraded by adding and adapting different toolsets or extruders.

Recycling in Space

The Plastic Recycler produced by Made In Space is a robust, semi-autonomous manufacturing facility capable of processing polyethylene (PE) raw materials into usable 3D printing filament for the AMF aboard ISS. The Recycler will allow astronauts to convert plastic packaging and trash as well as objects previously fabricated by the 3D printer into feedstock to be reused by the printer.

The Plastic Recycler was developed through a partnership with Brazil-based, Braskem, Americas’ largest thermoplastic resin producer.


Archinaut One Mission Announced

Made In Space is awarded a NASA contract to demonstrate Archinaut’s technology platform in space by building a smallsat power system on orbit.

Archinaut system Qualified for Spaceflight

Made In Space team demonstrates the in-space viability of both Archinaut’s additive manufacturing and robotic assembly technologies, qualifying the Archinaut system for spaceflight.

Archinaut Testing

Made In Space demonstrates the in-space viability of the Archinaut technology during testing in a thermal vacuum chamber at NASA Ames.

Made In Space launches its Optical Fiber payload to the ISS

The technology aims to develop exotic optical fiber on orbit, paving the way for new classes of materials to be produced in space and for terrestrial applications.

Archinaut Program

Made In Space partners with NASA to expand in-space manufacturing with the Archinaut program. Archinaut is an in-space robotic manufacturing and assembly capability that builds large scale space assets on-orbit.

Made In Space builds and delivers the AMF for Flight

Following a successful 3D Print mission the AMF a commercial 3D printing facility is delivered for flight.

November 24, 2014
First Parts Manufactured Off-Earth

Made In Space and NASA Marshall Space Flight Center remotely operate the 3D Print payload.

NASA awards Made In Space a Phase I SBIR grant to develop the Additive Manufacturing Facility (AMF) for the ISS
Made In Space develops Additive Manufacturing that operates in Microgravity

Under a NASA Flight Opportunities Program contract.

August 2010
Made In Space is Founded

Funding Rounds



Further Resources


3D printers on the final frontier: Made In Space is building satellites that build themselves

Jon Evans


September 2, 2019

Sparking the space economy

Debra Werner


January 2020


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