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Strength and Frequency of Underwater Shock Waves Related to Sterilization Effects on a Marine Bacterium Read chapter Read first chapter

2019 | OriginalPaper | Chapter

Thermo-structural Design of Hypersonic Vehicle Sharp Leading Edges for Thermo-erosive Stability Using Finite Element Modelling

Author : Anupam Purwar

Published in: 31st International Symposium on Shock Waves 2

Publisher: Springer International Publishing

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Abstract

Hypersonic vehicle structural components with sharp geometries, namely, strut, cowl and nose, experience high pressure and heat flux due to flow stagnation. Besides the heat flux and pressure, high-temperature erosive environment is also experienced by such structures. Thus, evaluation of high-temperature wear becomes crucial to design of such sharp structural components. In present work, thermo-structural analysis along with evaluation of damage due to wear-induced mass loss has been carried out by using wall temperature-dependent pressure and heat flux estimated from computational fluid dynamics analysis. Critical design parameters, namely, temperature, stress and mass loss due to erosion, have been estimated considering non-linear material behaviour of ZrB2-SiC-based ultrahigh-temperature ceramic. Multiple temperature-dependent erosion models for ZrB2-SiC have been developed, and maximum mass loss of 74 milligrams has been estimated for ZrB2-SiC strut subjected to heat flux of 6.08 MW/m2 and 753 kPa pressure in Mach 3 flow for 300 seconds duration.

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previous chapter Skin Friction Measurement Based on SSLCCs in Hypersonic Wind Tunnel
next chapter Computational Study on Rigid Disk-Gap-Band Supersonic Parachute Aerodynamics
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Metadata
Title
Thermo-structural Design of Hypersonic Vehicle Sharp Leading Edges for Thermo-erosive Stability Using Finite Element Modelling
Author
Anupam Purwar
Copyright Year
2019
Book
31st International Symposium on Shock Waves 2

Print ISBN: 978-3-319-91016-1

Electronic ISBN: 978-3-319-91017-8

Copyright Year: 2019

DOI
https://doi.org/10.1007/978-3-319-91017-8_128

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