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An explicit integral expression for the stress intensity factor of a semi-elliptic surface crack subjected to thermal transient loading
Affiliation:1. China University of Mining and Technology, Xuzhou 221116, China;2. Langfang Branch of PetroChina Research Institute of Petroleum Exploration & Development, Langfang 065007, China;3. National Energy Shale Gas R&D (Experiment) Center, Langfang 065007, China;4. CNPC Unconventional Oil and Gas Laboratory, Langfang 065007, China;5. PetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, China;1. Nuclear Engineering Division, Argonne National Laboratory, Lemont, IL 60439, United States;2. Mathematics and Computer Science Division, Argonne National Laboratory, Lemont, IL 60439, United States;3. Computing, Environment and Life Sciences Directorate, Argonne National Laboratory, Lemont, IL 60439, United States
Abstract:An explicit integral expression for the stress intensity factor of a semi-elliptic surface crack in a plate subjected to thermal transient loading was developed. The stress intensity factor of a semi-elliptic surface crack in a plate, which is exposed to a step change of fluid temperature, was calculated on the basis of the weight function method. The change of the stress intensity factor for a semi-elliptic surface crack subjected to an arbitrary change of the boundary fluid temperature was obtained by Duhamel integration for the product of the step function result and the time varying fluid temperature. The result obtained by the present method has shown good agreement with those obtained by the influence function method. As a practical application, a parametric analysis was performed for the crack behavior during the emergency cool down of reactor coolant in the reactor pressure vessel. Also, the present expression can be effectively applied to the simulation of fatigue crack growth of a semi-elliptic surface crack subjected to various thermal transient loading.
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