New method for evaluating the kinetic constant of thermal protection materials

Thermal protection material (TPM) is used to protect rocket structures from extreme conditions created by the hot exhaust of the rocket. Designing TPM is an important step in the rocket design process. Considering that an increase in the system weight decreases the overall performance of a rocket, t...

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Bibliographic Details
Published in:Journal of mechanical science and technology 2013, 27(6), , pp.1713-1719
Main Authors: Bae, Ji-Yeul, Yi, Jong Ju, Park, Sulki, Bae, Ju Chan, Ham, Heecheol, Cho, Hyung Hee
Format: Article
Language:English
Subjects:
Activation energy
Control
Design engineering
Dynamical Systems
Engineering
Exhaust
Industrial and Production Engineering
Interpreters
Mechanical Engineering
Reaction kinetics
Reaction time
Rockets
Thermal protection
Vibration
기계공학
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Summary:Thermal protection material (TPM) is used to protect rocket structures from extreme conditions created by the hot exhaust of the rocket. Designing TPM is an important step in the rocket design process. Considering that an increase in the system weight decreases the overall performance of a rocket, the amount of TPM is carefully determined during the design process. Therefore, the precise properties of TPM guarantee an accurate thermal analysis and the successful design of the rocket. Among the many properties of TPM, the kinetic constant and activation energy, which govern the thermochemical reaction of the TPM, are the most important. Thus, an experiment to measure the kinetic constant and activation energy is conducted as part of this research. A theoretical approach to deduce the properties from measured data is discussed, and a method to apply the theory to experimental data, termed the R 2 method, is developed. Compared to a previous method which was difficult to apply, the R 2 method reduces unclear selections of the reaction time and does not require intervention by an interpreter. The properties deduced by the R 2 method show good agreement with the other method despite the limited number of experimental results.
ISSN:1738-494X
1976-3824
DOI:10.1007/s12206-013-0421-3