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Experimental lifetime study of regeneratively cooled rocket chamber walls

Felix Hötte, Christoph von Sethe, Torben Fiedler, Matthias Haupt, Oskar Haidn, Michael Rohdenburg

2020International Journal of Fatigue28 citationsDOIOpen Access PDF

Abstract

A detailed knowledge of the life-limiting mechanisms of regeneratively cooled rocket combustion chambers is important to increase the safety, the thrust-to-weight ratio and the cost-efficiency of future rocket engines. For this purpose, an actively cooled specimen made of CuCr1Zr is mounted downstream of a combustion chamber. The specimen is loaded cyclically and inspected after each cycle. The specimens collapse in the ’doghouse’ failure mode after several load cycles. The effects of different hot-gas and coolant conditions, surface roughness and thermal barrier coatings on the lifetime are studied. The life-limiting mechanisms: creeping, yielding, abrasion, blanching and thermal aging are discussed.

Topics & Concepts

Rocket (weapon)LimitingCombustion chamberRocket engineMaterials scienceCoolantAbrasion (mechanical)Nuclear engineeringThrustThermalSpallThermal barrier coatingCombustionAerospace engineeringComposite materialMechanical engineeringEngineeringChemistryMeteorologyPhysicsOrganic chemistryCeramicRocket and propulsion systems researchEnergetic Materials and CombustionNuclear Materials and Properties
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