Abstract
In developing liquid rocket engines, life time of a combustion chamber is one of key design issues. In order to understand and predict the mechanism of failure mode caused by creep-fatigue, which is one of major risks to a combustion chamber, a new chamber life prediction methodology, based on a multi-physics two-way coupled simulation and the linear cumulative damage rule, was developed. The developed methodology was applied to a regeneratively cooled thrust chamber of an actual engine, and the deformation mechanism of creep-fatigue crack occurred around the throat during hot firing tests was investigated in detail.
| Translated title of the contribution | GS38 液体ロケットエンジン外筒付き燃焼室の破損メカニズムの解明 : 上段エンジンのき裂発生メカニズム |
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| Original language | Japanese |
| State | Published - 12 Oct 2013 |
| Event | The Proceedings of the Materials and Mechanics Conference - Duration: 1 Jan 2015 → … |
Conference
| Conference | The Proceedings of the Materials and Mechanics Conference |
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| Period | 1/01/15 → … |