Combustion Processes in Solid Propellant Cracks

Abstract

This report presents results of a study of combustion processes in solid propellant cracks. As might be expected, under moderate chamber pressurization rates (10,000 atm/s), the theoretical predictions, as well as the experimental observations, indicate that the ignition front propagates from the entrance of the crack to the tip. However, under rapid chamber pressurization rates (100,000 atm/s or higher), the tip region of the crack was observed to ignite before the arrival of the convective ignition front. (Ignition is defined here as the onset of emission of luminous light from the propellant surface with some material loss. A theoretical model has been developed to explain the tip ignition phenomena. The model considers: a one-dimensional transient heat conduction equation for the solid phase; and one-dimensional, unsteady mass and energy conservation equations for the gas phase near the crack tip. Both experimental and theoretical results indicate that the ignition delay time decreases as the pressurization rate is increased.

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Document Details

Document Type
Technical Report
Publication Date
Jun 01, 1981
Accession Number
ADA116796

Entities

People

  • J. E. Wills
  • K. K. Kuo
  • M Kumar
  • S. M. Kovacic
  • T. Y. Chang

Organizations

  • Pennsylvania State University

Tags

Communities of Interest

  • Weapons Technologies

DTIC Thesaurus Topics

  • Burning Rate
  • Cameras
  • Chemical Reactions
  • Combustion
  • Computer Programs
  • Computers
  • Data Acquisition
  • Geometry
  • Heat Transfer
  • Ignition
  • Ignition Lag
  • Mechanics
  • Operating Systems
  • Pressure Distribution
  • Recording Systems
  • Solid Propellants
  • Two Dimensional

Fields of Study

  • Physics

Readers

  • Combustion Dynamics and Shock Wave Physics.
  • Materials Science (Mechanical Engineering).
  • Rocket Propulsion.