Analysis of Packer Rubber Mechanics Properties

Jian Ning Wang; Gang Wu; Wei Yi Xie; Xin De Han; Ming Chao Gang

doi:10.4028/www.scientific.net/AMR.971-973.380

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 971-973Analysis of Packer Rubber Mechanics Properties

Analysis of Packer Rubber Mechanics Properties

Abstract:

Abstract: The packer rubber stress in the bottom hole is more complex. Based on constitutive model of the packer rubber material, this paper determines such parameters as model constants, Poisson's ratio of rubber materials and elastic modulus by using experimental method, to build up the finite element model of center tube-rubber cylinder-casing for the purpose of stress analysis. Finally, the distribution regularity of rubber cylinder-casing contact stress and packer setting travel distance with varying loads is concluded. The results can provide the theoretical basis for further analysis of packer rubber sealing performance.

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Periodical:

Advanced Materials Research (Volumes 971-973)

Pages:

380-389

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.971-973.380

Citation:

Cite this paper

Online since:

June 2014

Authors:

Jian Ning Wang*, Gang Wu, Wei Yi Xie, Xin De Han, Ming Chao Gang

Keywords:

Finite Element Model (FEM), Mechanics Parameter, Mooney-Rivlin Constitutive Model, Sealing Performance, Structure Parameter

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* - Corresponding Author

References

[1] Xu Li, Wu Guizhong, et. al. Several forms of rubber strain energy function in finite element analysis[J]. Rubber Industry, 1999, 12.

Google Scholar

[2] Zhang Xibin, Wang Yuezhi, et. al. Analysis of shearing stress between packer rubber and borehole wall under differential pressure[J]. Petroleum Mining Machinery, 2000, 6.

Google Scholar

[3] Zhou Xianjun, Ping Li. Finite element calculation of packer rubber contact stress distribution[J]. Drilling and Production Technology, 2002, 4.

Google Scholar

[4] Ji Gongming, Zhou Xianjun, et. al. Numerical simulation analysis of packer rubber contact stress[J]. Petroleum Mining Machinery, 2002, 5.

Google Scholar

[5] Yue Cheng, Wang Yanqun, et. al. Experimental study on contact stress between high-temperature packer rubber and casing[J]. Experimental Mechanics, 1999, 3.

Google Scholar

[6] Liu Tianliang, Shi Jize. Laboratory model test on packer rubber cylinder contact stress[J]. Faulted Oil& Gas Field, 2001, 4.

Google Scholar

[7] Hou Zong, Mao Daohua, et. al. Novel structure for bulging-prevention of packer compression rubber[J]. Petroleum Mining Machinery, 2002, 9.

Google Scholar

[8] Ynag Xiujun, et. al. Numerical analysis of setting process of hydraulic pressure packer rubber[J]. Journal of University of Petroleum, 2003, 5.

Google Scholar

[9] LeeBS, RivinEI. Finite Element Analysisof Load2 Deflection and Characteristics of Compressed Rubber Components for Vibration Control Devices[J]. Journal of Mechanical Design. 1996, 118: 328-335.

DOI: 10.1115/1.2826888

Google Scholar

[10] Du Chengze, Tang Baohua, Luo Dongshan, et. al. Theory and practice of rubber application in engineering[Translation]. Beijing: Chemical Industry Publishing House, (1985).

Google Scholar

[11] Qi Zhenhua, Fang Yongming, Zhang Dingxian. Finite element solution of rubber spring nonlinear hardness[J]. Shanghai Mechanics. 1994, 15(4): 33- 41.

Google Scholar