Buckling transition process of suspended tubulars during loading and unloading
In this paper, we investigate the numerical simulation of the whole buckling transition process during unloading and loading of the compression load with quasi-static method. By using a smaller load increment step, longer calculation time and appropriate damping, this buckling transition is calculat...
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sg-ntu-dr.10356-1513212021-07-06T03:36:14Z Buckling transition process of suspended tubulars during loading and unloading Zhang, Qiang Jiang, Bao Xiao, Zhongmin Cui, Wei School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Suspended Tubulars Helical Buckling In this paper, we investigate the numerical simulation of the whole buckling transition process during unloading and loading of the compression load with quasi-static method. By using a smaller load increment step, longer calculation time and appropriate damping, this buckling transition is calculated. We find that the tubular deformation evolves from continue-line contact to bottom-top-point, continuous-point, spatial two-point, spatial one-point, planar one-point contact, and finally back to vertical configuration during unloading. This deformation sequence is reversed during loading. During the transition from planar one-point contact to spatial two-point contact deformation, the buckling shape and related physical quantities change abruptly. During unloading and loading, the dimensionless critical loads of the first three buckling deformations are basically the same. For the buckling deformations with spatial two-point and planar one-point contact, and for spatial one-point contact deformation, the critical loads of loading are about 5% and 50% larger than that of unloading, respectively. For the spatial one-point contact deformation with dimensionless length greater than 40 and other buckling deformations with dimensionless length greater than 20, the critical loads obtained in the buckling process remain almost unchanged. It is noted that since the friction effect is not considered in our numerical simulation, the critical loads obtained are the minimum values in the process of buckling transition. The authors gratefully acknowledge the financial support from the National Natural Science Foundation of China (11502051, 51607035, 51674088), China Postdoctoral Science Foundation (2018M641804), Heilongjiang Youth Innovation Talents of Ordinary Undergraduate Colleges and Universities (UNPYSCT-2018046), Heilongjiang Postdoctoral Research Foundation (LBH-Q18029) and Postgraduate Innovative Research Project of Northeast Petroleum University (JYCX_CX04_2018). 2021-07-06T03:36:14Z 2021-07-06T03:36:14Z 2019 Journal Article Zhang, Q., Jiang, B., Xiao, Z. & Cui, W. (2019). Buckling transition process of suspended tubulars during loading and unloading. Journal of Petroleum Science and Engineering, 176, 481-493. https://dx.doi.org/10.1016/j.petrol.2019.01.060 0920-4105 https://hdl.handle.net/10356/151321 10.1016/j.petrol.2019.01.060 2-s2.0-85060682403 176 481 493 en Journal of Petroleum Science and Engineering © 2019 Elsevier B.V. All rights reserved. |
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Engineering::Mechanical engineering Suspended Tubulars Helical Buckling |
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Engineering::Mechanical engineering Suspended Tubulars Helical Buckling Zhang, Qiang Jiang, Bao Xiao, Zhongmin Cui, Wei Buckling transition process of suspended tubulars during loading and unloading |
| description |
In this paper, we investigate the numerical simulation of the whole buckling transition process during unloading and loading of the compression load with quasi-static method. By using a smaller load increment step, longer calculation time and appropriate damping, this buckling transition is calculated. We find that the tubular deformation evolves from continue-line contact to bottom-top-point, continuous-point, spatial two-point, spatial one-point, planar one-point contact, and finally back to vertical configuration during unloading. This deformation sequence is reversed during loading. During the transition from planar one-point contact to spatial two-point contact deformation, the buckling shape and related physical quantities change abruptly. During unloading and loading, the dimensionless critical loads of the first three buckling deformations are basically the same. For the buckling deformations with spatial two-point and planar one-point contact, and for spatial one-point contact deformation, the critical loads of loading are about 5% and 50% larger than that of unloading, respectively. For the spatial one-point contact deformation with dimensionless length greater than 40 and other buckling deformations with dimensionless length greater than 20, the critical loads obtained in the buckling process remain almost unchanged. It is noted that since the friction effect is not considered in our numerical simulation, the critical loads obtained are the minimum values in the process of buckling transition. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Zhang, Qiang Jiang, Bao Xiao, Zhongmin Cui, Wei |
| format |
Article |
| author |
Zhang, Qiang Jiang, Bao Xiao, Zhongmin Cui, Wei |
| author_sort |
Zhang, Qiang |
| title |
Buckling transition process of suspended tubulars during loading and unloading |
| title_short |
Buckling transition process of suspended tubulars during loading and unloading |
| title_full |
Buckling transition process of suspended tubulars during loading and unloading |
| title_fullStr |
Buckling transition process of suspended tubulars during loading and unloading |
| title_full_unstemmed |
Buckling transition process of suspended tubulars during loading and unloading |
| title_sort |
buckling transition process of suspended tubulars during loading and unloading |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151321 |
| _version_ |
1705151282949390336 |