Add to ORKGThe use of additive manufacturing technology has the potential to revolutionize the development of turbopump components in liquid rocket engines. When designing turbomachinery with the additive process there are several benefits and risks that are leveraged relative to a traditional development cycle. This topic explores the details and development of a 90,000 RPM Liquid Hydrogen Turbopump from which 90% of the parts were derived from the additive process. This turbopump was designed, developed and will be tested later this year at Marshall Space Flight Center
NASA and industry partners are working towards fabrication process development to reduce costs and s...
Additive manufacturing (AM) is being investigated at NASA and across much of the rocket propulsion i...
Marshall Space Flight Center (MSFC) has designed, fabricated, and hot-fire tested a variety of succe...
Space Propulsion is a 5 day event being held from 2nd May to the 6th May 2016 at the Rome Marriott P...
Additive Manufacturing, or 3D printing, is a key technology for enhancing rocket engine designs and ...
A modular aerospike engine concept has been developed with the objective of demonstrating the viabil...
The Marshall Space Flight Center's Propulsion Systems Department has gained significant experience i...
As part of an internal research and development project, NASA Marshall Space Flight Center (MSFC) ha...
The presentation will provide an overview of ongoing activities on additive manufacturing of aerospa...
Additive Manufacturing (AM) of metals is a processing technology that has significantly matured over...
Additive Manufacturing (AM) is an emerging technology with a focus on complex metallic component fab...
Hybrid rocket engines provide many advantages over current solid and liquid systems including: throt...
Hybrid rocket motors offer many of the benefits of both liquid and solid rocket systems. Like liquid...
The turbopump system, from preliminary design through rocket engine testing is examined. Selection o...
NASA is making space exploration more affordable and viable by developing and utilizing innovative m...
NASA and industry partners are working towards fabrication process development to reduce costs and s...
Additive manufacturing (AM) is being investigated at NASA and across much of the rocket propulsion i...
Marshall Space Flight Center (MSFC) has designed, fabricated, and hot-fire tested a variety of succe...
Space Propulsion is a 5 day event being held from 2nd May to the 6th May 2016 at the Rome Marriott P...
Additive Manufacturing, or 3D printing, is a key technology for enhancing rocket engine designs and ...
A modular aerospike engine concept has been developed with the objective of demonstrating the viabil...
The Marshall Space Flight Center's Propulsion Systems Department has gained significant experience i...
As part of an internal research and development project, NASA Marshall Space Flight Center (MSFC) ha...
The presentation will provide an overview of ongoing activities on additive manufacturing of aerospa...
Additive Manufacturing (AM) of metals is a processing technology that has significantly matured over...
Additive Manufacturing (AM) is an emerging technology with a focus on complex metallic component fab...
Hybrid rocket engines provide many advantages over current solid and liquid systems including: throt...
Hybrid rocket motors offer many of the benefits of both liquid and solid rocket systems. Like liquid...
The turbopump system, from preliminary design through rocket engine testing is examined. Selection o...
NASA is making space exploration more affordable and viable by developing and utilizing innovative m...
NASA and industry partners are working towards fabrication process development to reduce costs and s...
Additive manufacturing (AM) is being investigated at NASA and across much of the rocket propulsion i...
Marshall Space Flight Center (MSFC) has designed, fabricated, and hot-fire tested a variety of succe...