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Microstructural analysis of novel low-density flexible ablators based on polysiloxane resin

Microstructural analysis of novel low-density flexible ablators based on polysiloxane resin
Microstructural analysis of novel low-density flexible ablators based on polysiloxane resin
This research focuses on the development and characterization of novel low-density flexible thermal protection systems (TPS) materials for atmospheric reentry applications. TPS materials protect spacecraft from extreme aerodynamic heating through ablation mechanisms, where pyrolysis gases dissipate heat and a char layer provides insulation. Conventional characterization of ablative materials relies on costly experimental testing, limiting the rapid development of new material systems. This study investigates an alternative approach using microstructural analysis and computational modeling to predict key properties, such as thermal conductivity, density, and porosity. The Koo Research Group (KRG) evaluated Ultra-High Temperature Resin (UHTR), a polysiloxane-based resin, as a matrix for three candidate reinforcement systems: VDG graphite felt, Carbon-PBI felt, and quartz felt. Virgin and charred samples were produced and analyzed using X-ray computed tomography (XCT) at the University of Southampton’s µ-VIS Imaging Centre. The results aim to establish a framework for cost-effective characterization of low-density flexible ablators (LDFAs), enabling faster material qualification, and supporting future aerospace missions.
American Institute of Aeronautics and Astronautics
Bernstein, Samantha
f65a5dec-8f76-486f-afc2-1dddefe4c6f1
Kim, Steven D.
e46f1a6a-4aaa-4f37-bb8f-fb03302ef87b
Li, Wei
e472bbd7-506d-4d18-8a4e-0802a6a7bcc3
Koo, Joseph
c9e975fa-8509-4d73-82e1-3d101e1e6041
Alvarez-Borges, Fernando
5512cdfd-6ad3-475f-8aec-2fc767607314
Mavrogordato, Mark
f3e0879b-118a-463a-a130-1c890e9ab547
Bernstein, Samantha
f65a5dec-8f76-486f-afc2-1dddefe4c6f1
Kim, Steven D.
e46f1a6a-4aaa-4f37-bb8f-fb03302ef87b
Li, Wei
e472bbd7-506d-4d18-8a4e-0802a6a7bcc3
Koo, Joseph
c9e975fa-8509-4d73-82e1-3d101e1e6041
Alvarez-Borges, Fernando
5512cdfd-6ad3-475f-8aec-2fc767607314
Mavrogordato, Mark
f3e0879b-118a-463a-a130-1c890e9ab547

Bernstein, Samantha, Kim, Steven D., Li, Wei, Koo, Joseph, Alvarez-Borges, Fernando and Mavrogordato, Mark (2026) Microstructural analysis of novel low-density flexible ablators based on polysiloxane resin. In, AIAA SCITECH 2026 Forum. American Institute of Aeronautics and Astronautics. (doi:10.2514/6.2026-2391).

Record type: Book Section

Abstract

This research focuses on the development and characterization of novel low-density flexible thermal protection systems (TPS) materials for atmospheric reentry applications. TPS materials protect spacecraft from extreme aerodynamic heating through ablation mechanisms, where pyrolysis gases dissipate heat and a char layer provides insulation. Conventional characterization of ablative materials relies on costly experimental testing, limiting the rapid development of new material systems. This study investigates an alternative approach using microstructural analysis and computational modeling to predict key properties, such as thermal conductivity, density, and porosity. The Koo Research Group (KRG) evaluated Ultra-High Temperature Resin (UHTR), a polysiloxane-based resin, as a matrix for three candidate reinforcement systems: VDG graphite felt, Carbon-PBI felt, and quartz felt. Virgin and charred samples were produced and analyzed using X-ray computed tomography (XCT) at the University of Southampton’s µ-VIS Imaging Centre. The results aim to establish a framework for cost-effective characterization of low-density flexible ablators (LDFAs), enabling faster material qualification, and supporting future aerospace missions.

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Published date: 8 January 2026

Identifiers

Local EPrints ID: 509431
URI: http://eprints.soton.ac.uk/id/eprint/509431
DOI: doi:10.2514/6.2026-2391
PURE UUID: 4a9fa431-fa3f-4e83-9b03-759b23348eac
ORCID for Fernando Alvarez-Borges: ORCID iD orcid.org/0000-0002-6940-9918

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Date deposited: 23 Feb 2026 17:35
Last modified: 24 Feb 2026 03:04

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Contributors

Author: Samantha Bernstein
Author: Steven D. Kim
Author: Wei Li
Author: Joseph Koo
Author: Fernando Alvarez-Borges ORCID iD
Author: Mark Mavrogordato

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