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The Disruptive Technology That is Additive Construction: System Development Lessons Learned for Terrestrial and Planetary ApplicationsDisruptive technologies are unique in that they spawn other new technologies and applications as they grow. These activities are usually preceded by the question, "What If?" For example, "What if we could use an emerging technology and in-situ materials to promote exploration on the Moon or Mars, and then use that same technology to keep our troops out of harm's way and/or help the worlds' homeless?" This question allows us to flip the mindset of "how can people create more valuable innovation?" to "how can innovation create more valuable people?." This approach allows us to view augmented human labor as an inclusive opportunity, not a threat. The discipline of Additive Construction is growing rapidly due to the flexibility, speed, safety and logistics benefits offered as compared to standard construction techniques. Additive construction is a disruptive technology in that it employs the principles of additive manufacturing on a human habitat structure scale. Developed initially for emergency management and disaster relief applications, additive construction has now grown into military infrastructure and planetary (Moon and Mars) surface infrastructure applications as well. Additive Construction with Mobile Emplacement (ACME) is a NASA technology development project that seeks to demonstrate the feasibility of constructing shelters for human crews, and other surface infrastructure, on the Moon or Mars for a future human presence. The ACME project will allow, for the first time, the 3-dimensional printing of surface structures on planetary bodies using local materials for construction, thereby tremendously reducing launch and transportation mass and logistics. Some examples of infrastructure that could be constructed using robotic additive construction methods are landing pads, rocket engine blast protection berms, roads, dust free zones, equipment shelters, habitats and radiation shelters. Terrestrial applications include the development of surface structures using Earth-based materials for emergency response, disaster relief, general construction, and housing at all economic levels. This paper will describe the progress made by the NASA ACME project with a focus on prototypes and full scale additive construction demonstrations using both Portland cement concrete and other indigenous material mixtures. Rationale for the use of additive construction for both terrestrial and planetary applications will be explored and a thorough state-of-the-art of additive construction techniques will be presented. An evolutionary history of NASA's additive construction development efforts, dating back to 2004, will be included. The paper will then step through a series of trade studies performed to inform key processing and design decisions in the development of the full-scale ACES-3 system developed by NASA and the Jacobs Space Exploration Group for the U.S. Army Corps of Engineers (USACE) Construction Engineers Research Laboratory (CERL) in Champaign, IL. The selection of aggregate and binders, based on in-situ materials, will also be presented and discussed
Document ID
20180006817
Acquisition Source
Marshall Space Flight Center
Document Type
Conference Paper
External Source(s)
Authors
Fiske, Michael R.
(Jacobs Engineering Group, Inc. Houston, TX, United States)
Edmunson, Jennifer E.
(Jacobs Engineering Group, Inc. Houston, TX, United States)
Fikes, John C.
(NASA Marshall Space Flight Center Huntsville, AL, United States)
Murphy Johnston, Mallory M.
(NASA Marshall Space Flight Center Huntsville, AL, United States)
Weite, Edward G.
(Jacobs Engineering Group, Inc. Houston, TX, United States)
Date Acquired
October 24, 2018
Publication Date
September 17, 2018
Subject Category
Engineering (General)
Report/Patent Number
MSFC-E-DAA-TN60203
Meeting Information
Meeting: AIAA Space Forum
Location: Orlando, FL
Country: United States
Start Date: September 17, 2018
End Date: September 19, 2018
Sponsors: American Inst. of Aeronautics and Astronautics
Funding Number(s)
CONTRACT_GRANT: 80MSFC18C0011
Distribution Limits
Public
Copyright
Public Use Permitted.
Keywords
Space Processing
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