Qualification and reusability of long and short fibre-reinforced ultra-refractory composites for aerospace thermal protection systems

S. Mungiguerra; L. Silvestroni; R. Savino; L. Zoli; B. Esser; M. Lagos; D. Sciti

doi:10.1016/j.corsci.2021.109955

Qualification and reusability of long and short fibre-reinforced ultra-refractory composites for aerospace thermal protection systems

S. Mungiguerra
, L. Silvestroni^*
, R. Savino
, L. Zoli
, B. Esser
, M. Lagos
, D. Sciti

^*Corresponding author for this work

Materials for extreme conditions

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

41 Citations (Scopus)

Abstract

Qualification and reusability campaigns were performed on ultra-high temperature ceramic matrix composites (UHTCMCs) made of a ZrB₂-SiC matrix with short/long carbon fibre to assess their performance as thermal protection systems. Heat fluxes and stagnation pressures were set following those of reference re-entry missions. An interdisciplinary analysis followed by combining infrared measurements of the thermal response, estimation of surface properties and microstructural characterization. Compared to conventional C/SiC composites, the increased erosion resistance of the new UHTCMCs was assessed in ultra-hot regime: although these experienced much higher thermal loads, they underwent minimal erosion and preserved their structural stability even after multiple exposures.

Original language	English
Article number	109955
Journal	Corrosion Science
Volume	195
DOIs	https://doi.org/10.1016/j.corsci.2021.109955
Publication status	Published - Feb 2022

Keywords

Ablation
Composites
Reusability
TPS
UHTCMC

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10.1016/j.corsci.2021.109955

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title = "Qualification and reusability of long and short fibre-reinforced ultra-refractory composites for aerospace thermal protection systems",

abstract = "Qualification and reusability campaigns were performed on ultra-high temperature ceramic matrix composites (UHTCMCs) made of a ZrB2-SiC matrix with short/long carbon fibre to assess their performance as thermal protection systems. Heat fluxes and stagnation pressures were set following those of reference re-entry missions. An interdisciplinary analysis followed by combining infrared measurements of the thermal response, estimation of surface properties and microstructural characterization. Compared to conventional C/SiC composites, the increased erosion resistance of the new UHTCMCs was assessed in ultra-hot regime: although these experienced much higher thermal loads, they underwent minimal erosion and preserved their structural stability even after multiple exposures.",

keywords = "Ablation, Composites, Reusability, TPS, UHTCMC",

author = "S. Mungiguerra and L. Silvestroni and R. Savino and L. Zoli and B. Esser and M. Lagos and D. Sciti",

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T1 - Qualification and reusability of long and short fibre-reinforced ultra-refractory composites for aerospace thermal protection systems

AU - Mungiguerra, S.

AU - Silvestroni, L.

AU - Savino, R.

AU - Zoli, L.

AU - Esser, B.

AU - Lagos, M.

AU - Sciti, D.

PY - 2022/2

Y1 - 2022/2

N2 - Qualification and reusability campaigns were performed on ultra-high temperature ceramic matrix composites (UHTCMCs) made of a ZrB2-SiC matrix with short/long carbon fibre to assess their performance as thermal protection systems. Heat fluxes and stagnation pressures were set following those of reference re-entry missions. An interdisciplinary analysis followed by combining infrared measurements of the thermal response, estimation of surface properties and microstructural characterization. Compared to conventional C/SiC composites, the increased erosion resistance of the new UHTCMCs was assessed in ultra-hot regime: although these experienced much higher thermal loads, they underwent minimal erosion and preserved their structural stability even after multiple exposures.

AB - Qualification and reusability campaigns were performed on ultra-high temperature ceramic matrix composites (UHTCMCs) made of a ZrB2-SiC matrix with short/long carbon fibre to assess their performance as thermal protection systems. Heat fluxes and stagnation pressures were set following those of reference re-entry missions. An interdisciplinary analysis followed by combining infrared measurements of the thermal response, estimation of surface properties and microstructural characterization. Compared to conventional C/SiC composites, the increased erosion resistance of the new UHTCMCs was assessed in ultra-hot regime: although these experienced much higher thermal loads, they underwent minimal erosion and preserved their structural stability even after multiple exposures.

KW - Ablation

KW - Composites

KW - Reusability

KW - TPS

KW - UHTCMC

UR - https://www.scopus.com/pages/publications/85122519724

U2 - 10.1016/j.corsci.2021.109955

DO - 10.1016/j.corsci.2021.109955

M3 - Article

AN - SCOPUS:85122519724

SN - 0010-938X

VL - 195

JO - Corrosion Science

JF - Corrosion Science

M1 - 109955

ER -

Qualification and reusability of long and short fibre-reinforced ultra-refractory composites for aerospace thermal protection systems

Abstract

Keywords

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