Ballistic anomalies have frequently occurred during the firing of several solid rocket motors (SRMs) (Inertial Upper Stage, Space Shuttle Redesigned SRM (RSRM) and Titan IV SRM Upgrade (SRMU)), producing even relevant and unexpected variations of the SRM pressure trace from its nominal profile. This paper has the purpose to provide a numerical analysis of the following possible causes of ballistic anomalies in SRMs: an inert object discharge, a slag ejection, and an unexpected increase in the propellant burning rate or in the combustion surface. The SRM configuration under investigation is an aft-finocy...
grantor: University of TorontoAn introductory evaluation of the effects of an externally i...
The Ignition Transient (IT) of Solid Rocket Motors (SRMs) is characterized by strong unsteady phenom...
Traditionally, Solid Rocket Motor (SRM) internal ballistic performance has been analyzed and predict...
Ballistic anomalies have frequently occurred during the firing of several solid rocket motors (SRMs)...
Aim of this paper is to the analyze of the eects of a flying object, advected by the motor internal fl...
During the Shuttle launches, the solid rocket motors (SRM) occasionally experience pressure perturba...
In solid rocket motors, the absence of combustion controllability and the large amount of financial ...
During the STS-54 launch (RSRM-29), the right hand solid rocket motor experienced a 13.9 psi chamber...
During the shuttle launches, the solid rocket motors (SRM) occasionally experience pressure perturba...
Numerical studies intended to predict solid rocket motors anomalies are the major contributors when ...
PREDICTION and control of pressure and pressure-rise rate during the ignition transient of solid-pro...
A 13 psi pressure perturbation occurred at approximately 68 seconds on the right Redesigned Solid Ro...
Adetailed picture of the internal flow during the starting transient of high-performance solid rocke...
The basic idea behind a solid rocket motor (SRM) is simple but its design is a complex technological...
Large solid rocket motors (SRMs) may exhibit pressure oscillations (PO) during their quasi-steady-st...
grantor: University of TorontoAn introductory evaluation of the effects of an externally i...
The Ignition Transient (IT) of Solid Rocket Motors (SRMs) is characterized by strong unsteady phenom...
Traditionally, Solid Rocket Motor (SRM) internal ballistic performance has been analyzed and predict...
Ballistic anomalies have frequently occurred during the firing of several solid rocket motors (SRMs)...
Aim of this paper is to the analyze of the eects of a flying object, advected by the motor internal fl...
During the Shuttle launches, the solid rocket motors (SRM) occasionally experience pressure perturba...
In solid rocket motors, the absence of combustion controllability and the large amount of financial ...
During the STS-54 launch (RSRM-29), the right hand solid rocket motor experienced a 13.9 psi chamber...
During the shuttle launches, the solid rocket motors (SRM) occasionally experience pressure perturba...
Numerical studies intended to predict solid rocket motors anomalies are the major contributors when ...
PREDICTION and control of pressure and pressure-rise rate during the ignition transient of solid-pro...
A 13 psi pressure perturbation occurred at approximately 68 seconds on the right Redesigned Solid Ro...
Adetailed picture of the internal flow during the starting transient of high-performance solid rocke...
The basic idea behind a solid rocket motor (SRM) is simple but its design is a complex technological...
Large solid rocket motors (SRMs) may exhibit pressure oscillations (PO) during their quasi-steady-st...
grantor: University of TorontoAn introductory evaluation of the effects of an externally i...
The Ignition Transient (IT) of Solid Rocket Motors (SRMs) is characterized by strong unsteady phenom...
Traditionally, Solid Rocket Motor (SRM) internal ballistic performance has been analyzed and predict...