| 薄壁衬层再生复合管材层间界面力学行为分析 |
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| 引用本文: | 卢召红,王凯勃,王尊策,徐艳,刘海水.薄壁衬层再生复合管材层间界面力学行为分析[J].四川大学学报(工程科学版),2021,53(4):92-100. |
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| 作者姓名: | 卢召红 王凯勃 王尊策 徐艳 刘海水 |
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| 作者单位: | 东北石油大学,东北石油大学,东北石油大学 |
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| 基金项目: | 国家自然科学基金:项目编号:51578120 国家自然科学青年基金资助项目(11402051) |
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| 摘 要: | 本文通过带腐蚀缺陷管道钢与薄壁衬层单面粘结试件的拉剪试验和T形板面粘结试件的法向拉伸试验,对薄壁内衬再生复合管材层间界面力学行为进行研究。单面粘结试件切向力作用下,随着带腐蚀缺陷管道钢腐蚀程度的增加,粘结层与基层管道钢剥离所占的比例逐渐减小,层间极限承载力逐渐增大,界面粘聚力随着腐蚀损失率的增加略有增加,但随着粘结材料失效所占比例的增加,这种增加趋势慢慢趋于平缓,层间界面切向破坏以粘结材料内聚力失效为主。利用差值法建立复合管材层间界面切向应力位移“双线性”本构关系模型。T形板面粘结试件的法向拉伸试验结果表明,试件法向力作用下的破坏形式基本相同,破坏以粘结层内聚力失效破坏为主,界面法向应力位移变化关系也可简化为“双线性”界面法向应力位移本构关系模型。基于“双线性”本构关系模型及试验结果,建立了带腐蚀缺陷管钢修复后的有限元分析模型。通过与试验结果对比分析得出“双线性”界面内聚力模型在有限元模型分析中能够准确模拟薄壁内衬复合管材层间力学性能。研究内容和结果可为埋地管道非开挖连续内衬修复技术提供理论依据。
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| 关 键 词: | 薄壁衬层 再生复合管材 界面力学性能 本构关系 |
| 收稿时间: | 2020/12/16 0:00:00 |
| 修稿时间: | 2021/7/9 0:00:00 |
Analysis on the Mechanical Behavior of the Interlayer Interface of a Recycled Composite Pipe with a Thin-walled Lining |
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| LU Zhaohong,WANG Kaibo,WANG Zunce,XU Yan,LIU Haishui.Analysis on the Mechanical Behavior of the Interlayer Interface of a Recycled Composite Pipe with a Thin-walled Lining[J].Journal of Sichuan University (Engineering Science Edition),2021,53(4):92-100. |
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| Authors: | LU Zhaohong WANG Kaibo WANG Zunce XU Yan LIU Haishui |
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| Affiliation: | School of Civil and Architectural Eng., Northeast Petroleum Univ., Daqing 163318, China;School of Civil and Architectural Eng., Northeast Petroleum Univ., Daqing 163318, China;Key Lab. of Oil & Gas Storage and Transportation, PetroChina Pipeline R&D Center, Langfang 065000, China |
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| Abstract: | In order to study the interlaminar mechanical behavior of regenerated composite pipes with thin-walled lining, tangential and normal tensile failure tests are carried out on the composite pipes with corroded defects and thin-walled stainless steel lining. Based on the test results, a finite element analysis model is established for the repaired pipes with corroded defects. The test results of test specimen under the effect of tangential force show that with the increase of pipe steel corrosion extent with corrosion defects, bonding layer and the base pipe steel strip gradually decreases, the ultimate strength of the interface between the layers increase gradually, and with the increase of the corrosion loss rates, the interface cohesive force has a slight increase. But with the increase of proportion of binding material failure, this increased trend gradually flatten out. The tangential failure of interlayer interface is mainly due to the failure of cohesive force of binder. The test results under normal force show that the failure modes of each specimen are basically the same, and the failure is mainly the failure of cohesive force of the bonding layer. A bilinear constitutive model of tangential stress and relative displacement at interlayer interface of composite pipes is established by difference method. The relation between normal stress and relative displacement at interlayer interface can also be simplified to bilinear constitutive relation. The finite element analysis model is used to analyze the specimen, and the analysis results are in good agreement with the test results. The bilinear interfacial cohesive force model can accurately simulate the interlaminar mechanical properties of thin-walled composite pipes in the finite element model analysis. The research content and results can provide a theoretical basis for the trenchless continuous lining repair technology of buried pipeline. |
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| Keywords: | Thin-walled lining Recycled composite pipe Interface mechanical properties Constitutive relation |
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