{"project":{"acronym":"","projectId":9176,"title":"Ductile Tungsten-Rhenium Coating for Long-Term Protection of Nuclear-Thermal Rocket Fuel","primaryTaxonomyNodes":[{"taxonomyNodeId":10564,"taxonomyRootId":8816,"parentNodeId":10560,"level":3,"code":"TX01.4.4","title":"Other Advanced Propulsion Approaches","definition":"Other advanced propulsion technologies include technologies and physics concepts that could result in breakthroughs that enable missions not previously possible.","exampleTechnologies":"Beamed energy, fusion propulsion, high energy-density materials, antimatter propulsion, advanced fission, breakthrough propulsion","hasChildren":false,"hasInteriorContent":true}],"startTrl":3,"currentTrl":4,"endTrl":4,"benefits":"In addition to compact, high-performance space reactors, the proposed technology will assist development of ion drive, plasma thrusters, and fusion propulsion. The tungsten-rhenium-coated fuel could also contribute to a new DOE Generation IV power system that significantly lowers cost, improves passive safety, has no carbon dioxide emissions, uses an advanced, proliferation-resistant fuel cycle, and reduces nuclear waste. The fuel could also be used in ground-based power or in portable power systems for military or surveillance applications and remote deployment, as well as impact other applications in electronics, aerospace, and catalysis.
Propulsion technologies are sought that will enable dramatic improvements in space transportation safety, reliability, and cost. Key to this goal is the application of innovative, non-traditional propulsion technologies, devices, and systems that could significantly increase the structural margins of future launch systems and substantially reduce the mission times for interplanetary and deep-space spacecraft. Development of such technologies is sought to enable ambitious commercial, robotic, and human exploration missions in the future. Technology innovations are sought that would provide significant advancements in space transportation capability and lead to the development of safe, affordable, high-performance propulsion technologies, including high-efficiency nuclear-thermal and nuclear-electric propulsion systems which utilize a nuclear fission reactor for propulsion as well as production of the large amount of electrical energy required for scientific instruments (including deep penetrating radar), mission design options, and telecommunications.","description":"In conjunction with Sandia National Laboratories, Ultramet previously demonstrated the feasibility of using low-density, high specific stiffness open-cell foams for creation of innovative fuel elements for use in space nuclear reactors. Highly porous and structural foam material was produced by chemical vapor infiltration of uranium, niobium, and zirconium carbides into a foam matrix. The foam structure and versatility in fuel composition were used to take advantage of the potential for high power density, high thermal efficiency, and small core size. The lifetime of this fuel material, as well as current pellet-type fuels in industry, would benefit greatly from the development of an impermeable surface coating that would prevent hydrogen attack of the underlying fuel and contain fission products for extended periods. Tungsten is an attractive surface coating in terms of temperature capability, hydrogen compatibility, and neutronics, but is inherently brittle and prone to cracking when subjected to modest mechanical or thermal stress. Ultramet has extensive experience in development of tungsten alloys with improved ductility for applications including ballistic penetrators and liners for solid rocket motor throats. In this project, Ultramet will develop the processing for deposition of thin tungsten-rhenium alloy coatings on open-cell foam fuel elements. Components will be exposed to high temperature hydrogen at Ultramet, followed by surface and cross-sectional coating characterization. Sandia will perform preliminary modeling experiments to determine the optimal concentration of rhenium in the coating and coating thickness. The potential exists to utilize the proposed containment coating over a variety of high-efficiency open-cell foam fuels including carbides and cermets.","startYear":2011,"startMonth":2,"endYear":2011,"endMonth":9,"statusDescription":"Completed","principalInvestigators":[{"contactId":3164074,"canUserEdit":false,"firstName":"Brian E.","lastName":"Williams","fullName":"Brian E. Williams","fullNameInverted":"Williams, Brian E.","primaryEmail":"brian.williams@ultramet.com","publicEmail":true,"nacontact":false},{"contactId":54152,"canUserEdit":false,"firstName":"Brian","lastName":"Williams","fullName":"Brian E Williams","fullNameInverted":"Williams, Brian E","middleInitial":"E","primaryEmail":"brian.williams@ultramet.com","publicEmail":true,"nacontact":false}],"programDirectors":[{"contactId":206378,"canUserEdit":false,"firstName":"Jason","lastName":"Kessler","fullName":"Jason L Kessler","fullNameInverted":"Kessler, Jason L","middleInitial":"L","primaryEmail":"jason.l.kessler@nasa.gov","publicEmail":true,"nacontact":false}],"programExecutives":[{"contactId":215154,"canUserEdit":false,"firstName":"Jennifer","lastName":"Gustetic","fullName":"Jennifer L Gustetic","fullNameInverted":"Gustetic, Jennifer L","middleInitial":"L","primaryEmail":"jennifer.l.gustetic@nasa.gov","publicEmail":true,"nacontact":false}],"programManagers":[{"contactId":62051,"canUserEdit":false,"firstName":"Carlos","lastName":"Torrez","fullName":"Carlos Torrez","fullNameInverted":"Torrez, Carlos","primaryEmail":"carlos.torrez@nasa.gov","publicEmail":true,"nacontact":false}],"projectManagers":[{"contactId":3164028,"canUserEdit":false,"firstName":"Celestino Jun","lastName":"Rosca","fullName":"Celestino Jun Rosca","fullNameInverted":"Rosca, Celestino Jun","primaryEmail":"crosca@nasa.gov","publicEmail":true,"nacontact":false},{"contactId":461333,"canUserEdit":false,"firstName":"Theresa","lastName":"Stanley","fullName":"Theresa M Stanley","fullNameInverted":"Stanley, Theresa M","middleInitial":"M","primaryEmail":"theresa.m.stanley@nasa.gov","publicEmail":true,"nacontact":false}],"website":"","libraryItems":[],"transitions":[{"transitionId":65113,"projectId":9176,"transitionDate":"2011-09-01","path":"Closed Out","closeoutDocuments":[{"title":"Final Summary Chart","file":{"fileExtension":"ppt","fileId":305359,"fileName":"SBIR_2010_1_FSC_X2.03-8779","fileSize":410624,"objectId":65113,"objectType":{"lkuCodeId":1841,"code":"TRANSITION_FILES","description":"Transition Files","lkuCodeTypeId":182,"lkuCodeType":{"codeType":"OBJECT_TYPE","description":"Object Type"}},"fileSizeString":"401.0 KB"},"transitionId":65113,"fileId":305359}],"infoText":"Closed out","infoTextExtra":"","dateText":"September 2011"}],"responsibleMd":{"acronym":"STMD","canUserEdit":false,"city":"","external":false,"linkCount":0,"organizationId":4875,"organizationName":"Space Technology Mission Directorate","organizationType":"NASA_Mission_Directorate","naorganization":false,"organizationTypePretty":"NASA Mission Directorate"},"program":{"acronym":"SBIR/STTR","active":true,"description":"
The NASA SBIR and STTR programs fund the research, development, and demonstration of innovative technologies that fulfill NASA needs as described in the annual Solicitations and have significant potential for successful commercialization. If you are a small business concern (SBC) with 500 or fewer employees or a non-profit RI such as a university or a research laboratory with ties to an SBC, then NASA encourages you to learn more about the SBIR and STTR programs as a potential source of seed funding for the development of your innovations.
The SBIR and STTR programs have 3 phases:
The SBIR and STTR Phase I contracts last for 6 months with a maximum funding of $125,000, and Phase II contracts last for 24 months with a maximum funding of $750,000 - $1.5 million.
Opportunity for Continued Technology Development Post-Phase II:
The NASA SBIR/STTR Program currently has in place two initiatives for supporting its small business partners past the basic Phase I and Phase II elements of the program that emphasize opportunities for commercialization. Specifically, the NASA SBIR/STTR Program has the Phase II Enhancement (Phase II-E) and Phase II eXpanded (Phase II-X) contract options.
Please review the links below to obtain more information on the SBIR/STTR programs.
Provides an overview of the SBIR and STTR programs as implemented by NASA
Provides access to the annual SBIR/STTR Solicitations containing detailed information on the program eligibility requirements, proposal instructions and research topics and subtopics
Schedule and links for the SBIR/STTR solicitations and selection announcements
Federal and non-Federal sources of assistance for small business
Search our complete archive of awarded project abstracts to learn about what NASA has funded
Still have questions? Visit the program FAQs
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