3 edition of Development of light weight ceramic ablators and arc-jet test results found in the catalog.
Development of light weight ceramic ablators and arc-jet test results
Published
1994
by National Aeronautics and Space Administration, Ames Research Center, National Technical Information Service, distributor in Moffett Field, Calif, [Springfield, Va
.
Written in
Edition Notes
| Statement | Huy K. Tran. |
| Series | NASA technical memorandum -- 108798., NASA technical memorandum -- 108798. |
| Contributions | Ames Research Center. |
| The Physical Object | |
|---|---|
| Format | Microform |
| Pagination | 1 v. |
| ID Numbers | |
| Open Library | OL17789853M |
The roundnose wedge is a water-cooled holder for a 5-inchsquare test panel. The fiat Iy, el affords m some economy in specimen preparation. Currently, such specimens are tested in a large-diameter subsonic arc jet. Views of 5-inch-square specimens tested to determine performance of charring ab]ators at very low heating rates are shown in figure. A hot jet research facility, used extensively in the design and development of the reentry heat shield on the Project Mercury spacecraft. The electrically heated arc jet simulates the heating encountered by a space vehicle as it returns to Earths atmosphere at high velocities. NASA EL
Initial Results from CALIPSO. NASA Technical Reports Server (NTRS) Winker, David M.; Pelon, Jacques; McCormick, M. Patrick. CALIPSO will carry the first polarization l. Thirteen different high-temperature materials were evaluated in an effort to find one that would survive the flight [5]. The flight conditions (Mach 10 at , feet) were simulated in the H2 arc-jet facility at Arnold Engineering and Development Center, Tullahoma, TN. The nose radius for the arc-jet test .
Read Session 1: Opening Session (01) text version. between the computed surface blowing rate and temperature distributions and the experimental data taken from a recent arc jet test. Main test results were the samples' erosion data, i.e. mass loss and surface recession, as well as temperatures measured on surface and backside. Creare Incorporated P.O. Box 71 Hanover, NH AMOUNT REQUESTED $69, EFFICIENT COOLING OF TURBINE DISKS Abstract.
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Development of Lightweight Ceramic Ablators and Arc-Jet Test Results HUY K. TRAN Ames Research Center Summary Lightweight ceramic ablators (LCAs) were recently developed at Ames to investigate the use of low density fibrous substrates and organic resins as high temperature, high strength ablative heat shields.
Unlike the traditionalFile Size: 1MB. Get this from a library. Development of light weight ceramic ablators and arc-jet test results. [Huy K Tran; Ames Research Center.]. Buy Development of light weight ceramic ablators and arc-jet test results (SuDoc NAS ) by Huy K. Tran (ISBN:) from Amazon's Book Store.
Everyday low prices and free delivery on Author: Huy K. Tran. Huy K. Tran has written: 'Development of light weight ceramic ablators and arc-jet test results' -- subject(s): Ceramic engineering, Ablation (Aerothermodynamics). Tran Cong Liem has written: 'DSDM Project' -- subject(s): Autocorrelation (Statistics), Computer programs, Regression analysis, Transformations (Mathematics).
arc jet facility is ideal for testing several seal characteristics simultaneously while simulating the heat loads and time scales typical of reentry.
An arc jet test facility using a well-designed test fixture provides a very accurate recreation of the reentry environment. In the late s, GRC worked with Boeing to developFile Size: 3MB. Aerothermal Analysis of a Sample-Return Reentry Capsule. Performance of a light-weight ablative (): Development of lightweight ceramic ablators and arc jet test.
results. Technical. The Arc-Jet provides the expertise to support screening, development, and validation of human-rated spacecraft thermal protection systems and robotically piloted vehicles.
The Arc-Jet is a high altitude, hypersonic wind tunnel facility that uses 4 direct current (DC) rectifiers capable of producing 10 MW of electrical power to heat test gases. We use cookies to offer you a better experience, personalize content, tailor advertising, provide social media features, and better understand the use of our services.
American Institute of Aeronautics and Astronautics Sunrise Valley Drive, Suite Reston, VA Atmospheric entry is the movement of an object from outer space into and through the gases of an atmosphere of a planet, dwarf planet, or natural are two main types of atmospheric entry: uncontrolled entry, such as the entry of astronomical objects, space debris, or bolides; and controlled entry (or reentry) of a spacecraft capable of being navigated or following a.
Arc-Jet Testing of Ultra-High-Temperature-Ceramics The Open Aerospace Engineering Journal,3: Raffaele Savino, Mario De Stefano Fumo, Diego Paterna, Di Maso Andrea Dipartimento di Ingegneria Aerospaziale, University of Naples “Federico II”, V. Tecc Naples, Italy. Electronic publication date 20/2/Cited by: Focus Shadowgraph System for Ablation Measurement During Arc Jet Testing Mark Brandon, Peter Sherrouse, Joseph Sheeley, Joel Mansfield, and Don Rotach Aerospace Testing Alliance Thermal and Fluids Analysis Workshop STATEMENT A: Cleared for public release; distribution unlimited.
Air Force Materiel Command Arnold Engineering Development Center. This banner text can have markup. web; books; video; audio; software; images; Toggle navigation. Thermal protection system (TPS) materials play an important role in the aerospace industry because they are used to manufacture the heat shield, i.e., the part that protects the structure, aerodynamic surfaces, payload of probes, missiles, war heads, and space vehicles from severe heating during entry flight through a planetary atmosphere [1].The protective heat shield of the vehicle has to.
Full text of "NASA Technical Reports Server (NTRS) Aeronautical engineering: A cumulative index to a continuing bibliography (supplement )" See other formats.
NASA Space Technology Roadmaps and Priorities: Restoring NASA's Technological Edge and Paving the Way for a New Era in Space. Washington, DC: The National Academies Press.
doi: / Recent research has been focused on the development of lower density ablators. For higher speed entries into the outer planets or their moons that.
The testing capabilities (based on plasma jet torches) for TPS materials are also evidenced in Fig. It appears that current facility does an adequate job of covering a low Earth orbit (LEO) entry (such as a shuttle return) and almost capture the Apollo lunar return peak heating point; however, they are inadequate for simulating the peak heating regions for Mars and far solar system by: 1.
Atmospheric entry is the movement of an object from outer space into and through the gases of an atmosphere of a planet, dwarf planet or natural satellite. There are two main types of atmospheric entry: uncontrolled entry, such as the entry of astronomical objects, space debris or bolides; and controlled entry (or reentry) of a spacecraft capable of being navigated or following a predetermined.
The RFP requires us to predict the thermal and mechanical response of a ceramic tile wing leading edge design under both ground test (arc-jet) and flight environments. According to Milos and Squirethe wing leading edge can be model as a inch long beam with a “U-shape cross section” having a characteristic dimension inches.
Atmospheric entry explained. Atmospheric entry is the movement of an object from outer space into and through the gases of an atmosphere of a planet, dwarf planet, or natural are two main types of atmospheric entry: uncontrolled entry, such as the entry of astronomical objects, space debris, or bolides; and controlled entry (or reentry) of a spacecraft capable of being.Development of lightweight ceramic ablators and arc-jet test results.
NASA Technical Reports Server (NTRS) Tran, Huy K. Lightweight ceramic ablators (LCA's) were recently developed at Ames to investigate the use of low density fibrous substrates and organic resins as high temperature, high strength ablative heat shields.NASA book on reentry and recovery systems.
