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Combustion Science and Technology Volume 5, 1972 - Issue 1
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Original Articles

A Unified Model for the Acceleration-Produced Burning Rate Augmentation of Metalized Solid Propellants

C. T. CROWE Washington State University, Pullman, Washington
Pages 55-60 | Received 14 Jan 1971, Published online: 10 May 2007

Citations (21)

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Read on this site (2)

Tohur Mitani & Takashi Niioka. (1977) An Analytical Model of Solid Propellant Combustion in an Acceleration Field. Combustion Science and Technology 15:3-4, pages 107-114.
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SHlMCHI ISHII, TAKASHI NIIOKA & TOHRU MITANI. (1973) An Analytical and Experimental Study for Solid Propellant Combustion in an Acceleration Field. Combustion Science and Technology 8:4, pages 177-184.
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Articles from other publishers (19)

Ran Wei, Bao Futing, Lin Sun & Meng Li. (2021) A Novel Burn Rate Prediction Model of Rotating Solid Rocket Motors. A Novel Burn Rate Prediction Model of Rotating Solid Rocket Motors.
Dian Guan, Shipeng Li, Xin Sui & Ningfei Wang. (2020) Mechanism of Influence of High‐Speed Self‐Spin on Ignition Transients for a Solid Rocket Motor: a Numerical Simulation. Propellants, Explosives, Pyrotechnics 45:7, pages 1040-1056.
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David R. GreatrixDavid R. Greatrix. 2012. Powered Flight. Powered Flight 323 379 .
V. A. Babuk, V. A. Vasil’ev & A. N. Potekhin. (2009) Experimental investigation of agglomeration during combustion of aluminized solid propellants in an acceleration field. Combustion, Explosion, and Shock Waves 45:1, pages 32-39.
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Alessio Bandera, Luigi T. DeLuca & Robert L. Glick. (2006) Aluminized Solid Propellants Combustion Under Vibratory Conditions. Aluminized Solid Propellants Combustion Under Vibratory Conditions.
Herman Krier, Sergey Surzhikov & Robert Glick. (2001) Prediction of the effects of acceleration on the burning of AP/HTPB solid propellants. Prediction of the effects of acceleration on the burning of AP/HTPB solid propellants.
. 2000. Solid Propellant Chemistry, Combustion, and Motor Interior Ballistics. Solid Propellant Chemistry, Combustion, and Motor Interior Ballistics 907 920 .
. 2000. Solid Propellant Chemistry, Combustion, and Motor Interior Ballistics. Solid Propellant Chemistry, Combustion, and Motor Interior Ballistics.
V. A. Babuk, V. A. Vasilyev & M. S. Malakhov. (1999) Condensed Combustion Products at the Burning Surface of Aluminized Solid Propellant. Journal of Propulsion and Power 15:6, pages 783-793.
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D. GREATRIX & J. GOTTLIEB. (1987) Model for prediction of normal-acceleration augmentation of composite-propellant combustion. Model for prediction of normal-acceleration augmentation of composite-propellant combustion.
M. LANGHENRY. (1986) Acceleration effects in solid propellant rocket motors. Acceleration effects in solid propellant rocket motors.
Winston N. Brundige & Leonard H. Caveny. (1984) Low Burning Rate Aluminized Propellants in Acceleration Fields. AIAA Journal 22:5, pages 638-646.
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Michael D. Fuchs, Arie Peretz & Y.M. Timnat. (1982) Parametric Study of Acceleration Effects on Burning Rates of Metallized Solid Propellants. Journal of Spacecraft and Rockets 19:6, pages 539-544.
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M. FUCHS, A. PERETZ & Y. TIMNAT. (1981) A parametric study of the effect of acceleration on the burning rate of metalized solid propellants. A parametric study of the effect of acceleration on the burning rate of metalized solid propellants.
W. BRUNDIGE & L. CAVENY. (1981) Low-burning-rate solid propellants in acceleration fields. Low-burning-rate solid propellants in acceleration fields.
Takashi Miioka, Tohru Mitani & Shinichi Ishii. (1976) Transient Period of the Acceleration-Produced Burning Rate Augmentation. AIAA Journal 14:9, pages 1165-1169.
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Merrill K. King. (1976) Critical Review: Modeling of Acceleration Effects on Solid Propellant Combustion. AIAA Journal 14:1, pages 18-25.
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A. D. Margolin & V. G. Krupkin. (1976) Influence of condensed admixtures on the powder combustion rate in an acceleration field. Combustion, Explosion, and Shock Waves 11:5, pages 600-605.
Crossref
T. NIIOKA, T. MITANI & S. ISHII. (1975) An experimental study on the accelerated-produced burning rate augmentation during transient period. An experimental study on the accelerated-produced burning rate augmentation during transient period.

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