Probabilistic Damage Modeling and Thermal Shock Risk Assessment of UHTCMC Thruster Under Transient Green Propulsion Operation
Prakhar Jindal, Tamim Doozandeh, Jyoti Botchu

TL;DR
This paper introduces a new simulation-based method to assess thermal shock risks in ceramic thrusters used in green propulsion systems.
Contribution
A novel stress-margin envelope methodology is introduced for fatigue risk assessment in ceramic matrix composite thrusters.
Findings
The convergent throat region experiences a peak thermal gradient rate of approximately 380 K/s.
Stress margins in the throat region collapse by 2.3 s, and margin loss in the flange curvature appears near 8 s.
Abstract
This study presents a simulation-based damage modeling and fatigue risk assessment of a reusable ceramic matrix composite thruster designed for short-duration, green bipropellant propulsion systems. The thruster is constructed from a fiber-reinforced ultra-high temperature ceramic matrix composite composed of zirconium diboride, silicon carbide, and carbon fibers. Time-resolved thermal and structural simulations are conducted on a validated thruster geometry to characterize the severity of early-stage thermal shock, stress buildup, and potential degradation pathways. Unlike traditional fatigue studies that rely on empirical fatigue constants or Paris-law-based crack-growth models, this work introduces a simulation-derived stress-margin envelope methodology that incorporates ±20% variability in temperature-dependent material strength, offering a physically grounded yet conservative risk…
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Taxonomy
TopicsRocket and propulsion systems research · Energetic Materials and Combustion · High-Velocity Impact and Material Behavior
