期刊论文详细信息
Machines
Repairing Damaged Screen Pipes with Tube Hydroforming: Experiments and Feasibility Analysis
Yanxin Liu1  Jiaqi Che1  Hanxiang Wang1  Shaohua Ma1  Wenjian Lan1  Shufeng Liu1 
[1] College of Mechanical and Electronic Engineering, China University of Petroleum (East China), Qingdao 266580, China;
关键词: screen pipe;    tube hydroforming;    patch tube;    material property;    residual stress;   
DOI  :  10.3390/machines10050391
来源: DOAJ
【 摘 要 】

During oil-well production, there are often cracks, breaks, and perforation corrosion on the screen pipe that can significantly deteriorate sand control and pipe strength. To repair damaged screen pipes, we developed a technique originating from the tube hydroforming, and the feasibility of the technique was systematically investigated. First, the elastoplastic mechanics of patch tubes during the hydroforming process was analyzed to investigate the forming mechanism. Second, tensile experiments showed that AISI 321 after cold drawn and solution had good mechanical properties. A numerical simulation model of a hydroforming patch composed of AISI 321 steel was built to investigate the effect of structural parameters such as the length, initial outer diameter, and thickness of a patch tube on hydroforming patch performance. Forming pressure did not significantly change with length, but it decreased with initial outer diameter and increased with thickness. In addition to the simulation, a hydroforming test bench was constructed to experimentally test the patch method. Test results showed that the patch tube could fit closely with the screen base pipe, and residual contact stress could be more than 139.78 kN/m2. Deformation strengthening due to the deformed martensite was conducive to improving the strength of the patch tube after hydroforming. The combination of the simulation and experiment indicates that the application of hydroforming patch technology can effectively repair damaged screen pipes.

【 授权许可】

Unknown   

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