THEORETICAL AND EXPERIMENTAL INVESTIGATIONS OF SOLID FUEL-RICH PROPELLANT FOR RAM ROCKET APPLICATIONS
محتوى المقالة الرئيسي
الملخص
Five formulations of fuel-rich propellant consisting hydroxy-terminated poly-butadiene (HTPB) based polymer, ammonium perchlorate (AP) and magnesium (Mg) or aluminum (Al) as additive have been processed and investigated. Theoretical calculations of flame temperature and gas composition were determined by NASA-273 computer code. The sustained ignition/ combustion of such propellant is possible with long duration pyrotechnic igniters. The experimental investigations of the effect of solid particle size range and content on fuel ballistic and mechanical properties have revealed that a considerable enhancement may be obtained with fine particle size and high content percent. High air-to-fuel ratio increases the combustion efficiency in the ramjet-mode resulting in higher specific impulse.
تفاصيل المقالة
القسم
كيفية الاقتباس
المراجع
Benkmann, P. and Kramer, P.A., (1982), Design considerations and analytical comparison of different types of ramjets and ramrockets., Ramjets and Ramrockets for military applications, AGARD
Nair, R. K., Mishra, S. C., Ramanujachari, V. and Pant, G. C., (1998), Burning rate measurement of fuel rich propellant by acoustic strand burner., 2 inter. High Energy Materials Conference and Exhibit, ITT MADRAS, INDIA.
Gordon, S. and McBride, J. B., (1971), Computer program for calculation of complex chemical Equilibrium compositions, Rocket performance, Incident and reflecting shocks and Chapman Jouguet Detonation., NASA SP-273, Washington
Zmat, A. D.(2003), Theoretical and Experimental Investigations of Ramjet Combustor, Ph.D. Thesis, Chem. Eng. Dept., Baghdad University.
Sahu, S. K., Chavan, M. V., Thakur, J. V., Kullarni, S. G. and Panda, S. P., (1998), Performance Evaluation of Glycidyl Azide polymer as integrated ramrocket propellant. 2d inter. High Energy Materials Conference and Exhibit, ITT MADRAS.