Load-carrying capacity of nuclear reactors under internal pressure considering work-hardening effect
A nuclear reactor is simplified and regarded as a pressure vessel to obtain its load-carrying capacity. Load-carrying capacity of a nuclear reactor is calculated by a finite element limit analysis considering work-hardening effect. The work-hardening effect generally enhances the safety margin of a pressure vessel from the incipient yielding to the rupture. In the calculation, the wall thickness of a nuclear reactor is altered as a design parameter to identify the validity of the current design. The current design proves to be a good design in the sense of a pressure vessel from the numerical result. The numerical result provides load-carrying capacity and collapse modes of a nuclear reactor with the variation of the wall thickness and demonstrates the capability of the present method for the optimum design of a pressure vessel.
- Publisher
- ASME/JSME PVP Conference
- Issue Date
- 1995-07-23
- Language
- ENG
- Description
ASME/JSME PVP Conference, Honolulu, Hawaii, U.S.A., High Pressure Technology, 1995.
- Citation
Proceedings of the 1995 Joint ASME/JSME Pressure Vessels and Piping Conference, v.297, pp.9 - 14
- Appears in Collection
- ME-Conference Papers(학술회의논문)
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