Add to ORKGThe 3D Printing in ZeroG Experiment has been an ongoing effort for several years. In June 2014 the technology demonstration 3D printer was launched to the International Space Station. In November 2014 the first 21 parts were manufactured in orbit marking the beginning of a paradigm shift that will allow astronauts to be more selfsufficient and pave the way to larger scale orbital manufacturing. Prior to launch the 21 parts were built on the ground with the flight unit with the same feedstock. These ground control samples are to be tested alongside the flight samples in order to determine if there is a measurable difference between parts built on the ground vs. parts built in space. As of this writing, testing has not yet commenced. Tests to...
Solar cells in space can be damaged by orbital debris or by a spacecraft\u27s malfunction or failure...
Aerosol Jet Printing (AJP) and other additive electronics technologies will enable new detector asse...
The ability to perform in-flight rapid prototyping would be of great benefit to NASA in two ways. F...
The 3D printing in zero-g (3D Print) technology demonstration project is a proof-of-concept test des...
The National Aeronautics and Space Administration (NASA) has a long term strategy to fabricate compo...
Human space exploration to date has been limited to low Earth orbit and the moon. The International ...
In 2014, NASA, in partnership with Made In Space, Inc., launched the first 3D printer to the Interna...
In-space manufacturing seeks to develop the processes, skill sets, and certification architecture ne...
Human space exploration to date has been confined to low-Earth orbit and the Moon. The International...
The article briefly evaluates the use of 3D-printing to create size-similar models of rocket and spa...
NASA's strategic goal is to put humans on Mars in the 2030s. The NASA Human Spaceflight Architecture...
The objective of NASA's In Space Manufacturing program is to develop manufacturing technologies and ...
As additive manufacturing is becoming an established technology in space, new emerging strategies im...
The 3D Printing the Complete CubeSat project is designed to advance the state-of-the-art in 3D print...
The employment of additive manufacturing in the non-standard environments like space, ships, or subm...
Solar cells in space can be damaged by orbital debris or by a spacecraft\u27s malfunction or failure...
Aerosol Jet Printing (AJP) and other additive electronics technologies will enable new detector asse...
The ability to perform in-flight rapid prototyping would be of great benefit to NASA in two ways. F...
The 3D printing in zero-g (3D Print) technology demonstration project is a proof-of-concept test des...
The National Aeronautics and Space Administration (NASA) has a long term strategy to fabricate compo...
Human space exploration to date has been limited to low Earth orbit and the moon. The International ...
In 2014, NASA, in partnership with Made In Space, Inc., launched the first 3D printer to the Interna...
In-space manufacturing seeks to develop the processes, skill sets, and certification architecture ne...
Human space exploration to date has been confined to low-Earth orbit and the Moon. The International...
The article briefly evaluates the use of 3D-printing to create size-similar models of rocket and spa...
NASA's strategic goal is to put humans on Mars in the 2030s. The NASA Human Spaceflight Architecture...
The objective of NASA's In Space Manufacturing program is to develop manufacturing technologies and ...
As additive manufacturing is becoming an established technology in space, new emerging strategies im...
The 3D Printing the Complete CubeSat project is designed to advance the state-of-the-art in 3D print...
The employment of additive manufacturing in the non-standard environments like space, ships, or subm...
Solar cells in space can be damaged by orbital debris or by a spacecraft\u27s malfunction or failure...
Aerosol Jet Printing (AJP) and other additive electronics technologies will enable new detector asse...
The ability to perform in-flight rapid prototyping would be of great benefit to NASA in two ways. F...