Numerical simulation for thermal shock resistance of thermal protection materials considering different operating environments

Weiguo Li; Dingyu Li; Ruzhuan Wang; Daining Fang

doi:10.1155/2013/324186

Numerical simulation for thermal shock resistance of thermal protection materials considering different operating environments

Weiguo Li^*, Dingyu Li, Ruzhuan Wang, Daining Fang

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Based on the sensitivities of material properties to temperature and the complexity of service environment of thermal protection system on the spacecraft, ultrahigh-temperature ceramics (UHTCs), which are used as thermal protection materials, cannot simply consider thermal shock resistance (TSR) of the material its own but need to take the external constraint conditions and the thermal environment into full account. With the thermal shock numerical simulation on hafnium diboride (HfB₂), a detailed study of the effects of the different external constraints and thermal environments on the TSR of UHTCs had been made. The influences of different initial temperatures, constraint strengths, and temperature change rates on the TSR of UHTCs are discussed. This study can provide a more intuitively visual understanding of the evolution of the TSR of UHTCs during actual operation conditions.

Original language	English
Article number	324186
Journal	The Scientific World Journal
Volume	2013
DOIs	https://doi.org/10.1155/2013/324186
Publication status	Published - 2013
Externally published	Yes

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AB - Based on the sensitivities of material properties to temperature and the complexity of service environment of thermal protection system on the spacecraft, ultrahigh-temperature ceramics (UHTCs), which are used as thermal protection materials, cannot simply consider thermal shock resistance (TSR) of the material its own but need to take the external constraint conditions and the thermal environment into full account. With the thermal shock numerical simulation on hafnium diboride (HfB2), a detailed study of the effects of the different external constraints and thermal environments on the TSR of UHTCs had been made. The influences of different initial temperatures, constraint strengths, and temperature change rates on the TSR of UHTCs are discussed. This study can provide a more intuitively visual understanding of the evolution of the TSR of UHTCs during actual operation conditions.

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Numerical simulation for thermal shock resistance of thermal protection materials considering different operating environments

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