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Pulse-Triggered Instability in Solid Rocket Motors
AIAA Journal, 1982This paper presents the results of a study to assess the ability of a recently developed comprehensive nonlinear combustion instability model to predict pulse-triggered instability in solid rocket motors. Performance models were developed to calculate the mass and energy flow rates produced by three laboratory pulsers (pyro, low brisance, and piston ...
J. BAUM, J. LEVINE, R. LOVINE
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Additional historical solid rocket motor burns
Acta Astronautica, 2006Abstract The use of orbital solid rocket motors (SRM) is responsible for the release of a high number of slag and Al2O3 dust particles which contribute to the space debris environment. This contribution has been modeled for the ESA space debris model MASTER (Meteoroid and Space Debris Terrestrial Environment Reference).
Carsten Wiedemann +5 more
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Combustion termination of solid rocket motors
Journal of Spacecraft and Rockets, 1965To explore the feasibility of terminating combustion without the hazardous flame and debris associated with venting, a series of sixteen 5-in.-diam motors was fired. Two techniques were investigated: 1) injection of liquid into the combustion chamber, and 2) explosive discharge of coolants from a canister located inside the chamber.
H. J. TABACK, E. E. DAY, T. P. BROWNE
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Adhesion in Solid Propellant Rocket Motors
The Journal of Adhesion, 2007Plasma treatment of EPDM-based rocket motor insulation materials may change the peel strength between these materials and polyurethane polymers by a factor of 0.1 to 10.
Kai Frode Grythe +2 more
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The Advanced Solid Rocket Motor
Space Programs and Technologies Conference, 1992The paper describes the Advanced Solid Rocket Motor (ASRM) that is being developed to replace, in 1997, the Redesigned Solid Rocket Motor which currently boosts the Space Shuttle. The ASRM will contain features to improve motor safety (fewer potential leak paths, improved seal materials, stronger case material, and fewer nozzle and case joints), an ...
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Igniter performance in solid propellant rocket motors
2nd Propulsion Joint Specialist Conference, 19661 Robbins, J. H. and Rogers, A. C., Jr., "An analysis on predicting thermal stratification in liquid hydrogen," J. Spacecraft Rockets 3, 40-45 (1966). 2 Boudreaux, R. A., "Boundary layer thermodynamic and hydrodynamic characteristics of a flowing liquid hydrogen tank, with and without internal heat generation," Ph.D dissertation, Univ.
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Analysis of Solid Rocket Motor Materials
2021 IEEE 12th International Conference on Mechanical and Intelligent Manufacturing Technologies (ICMIMT), 2021The development of solid rocket engine has a long history. However, modern rocket technology and space flight developed until the end of the nineteenth century and the beginning of the twentieth century, and hence the gradual emergence of solid rocket, liquid rocket and hybrid rocket.
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Solid-Propellant Rocket Motors
2012The solid-propellant rocket motor brings the flight mission capability of high thrust delivery over a short duration. Design issues, such as tailoring the shape of the solid propellant grain (charge) to produce a desired thrust-time profile, are discussed in some detail in this chapter.
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Solid rocket motor temperature sensitivity
Journal of Propulsion and Power, 1994The temperature sensitivity of the propellant and the solid rocket motor are described by several different temperature sensitivity coefficients. This enabled the derivation of three different relationships for the temperature sensitivity coefficient pi(sub K).
J. R. Osborn, S. D. Heister
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Thermoacoustic Instabilities in Solid Rocket Motors
45th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, 2009This work describes an unreported instability in so lid rocket motors found out by numerical simulations. A detailed numerical study s hows that this instability is thermoacoustic and results from a coupling between acoustic velocity and aluminum combustion heat release.
Stany Gallier +2 more
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