Cite this article as:

LiWang, Yong Zang, Zhaoneng Chen, Dechun Tong, and Jiaxiang Zou, Modal Analysis of Thread off Failure of Oil Round Thread Casing Connection, J. Univ. Sci. Technol. Beijing , 8(2001), No. 4, pp.277-279.
LiWang, Yong Zang, Zhaoneng Chen, Dechun Tong, and Jiaxiang Zou, Modal Analysis of Thread off Failure of Oil Round Thread Casing Connection, J. Univ. Sci. Technol. Beijing , 8(2001), No. 4, pp.277-279.
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Modal Analysis of Thread off Failure of Oil Round Thread Casing Connection

摘要: The dynamic modal model analysis of the oil casing connection is done by finite element method (FEM), and the first nature frequency, the second nature frequency, the vibration mode shape and the time domain of the node displacement and the element stress variation in the thread connection are gotten. The Von.Mises stresses of the connection in the static and dynamic state are also studied. The results of calculation and analysis show: (1) because the maximum of static stress is at the coupling thread end of connection, the connection begins to thread off at the coupling thread end, which is in accord with the results of the thread off experiment in laboratory; (2) because the first nature frequency is very high, the probability of casing connection to be damaged from vibration is little; (3) the shock dynamic load makes casing connection begin to thread off at the tube thread end.

 

Modal Analysis of Thread off Failure of Oil Round Thread Casing Connection

Abstract: The dynamic modal model analysis of the oil casing connection is done by finite element method (FEM), and the first nature frequency, the second nature frequency, the vibration mode shape and the time domain of the node displacement and the element stress variation in the thread connection are gotten. The Von.Mises stresses of the connection in the static and dynamic state are also studied. The results of calculation and analysis show: (1) because the maximum of static stress is at the coupling thread end of connection, the connection begins to thread off at the coupling thread end, which is in accord with the results of the thread off experiment in laboratory; (2) because the first nature frequency is very high, the probability of casing connection to be damaged from vibration is little; (3) the shock dynamic load makes casing connection begin to thread off at the tube thread end.

 

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