Yuliya A. Rakhmatullina, Vadim A. Alekseev, Timur S. Sultanmagomedov, Rustyam R. Khasanov
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The purpose of the study is to assess the possibility of using the design of the device and to calculate the stress-strain state of the device when the axes of the boundary sections of the pipeline are displaced due to the release of prestresses during the emergency repair complex for cutting out the defective section of the pipeline. Methods: methods of classical theoretical mechanics, soil mechanics, finite element method. Results. Based on the patent, a preliminary 3D model of the support-centering device and a method for analyzing the boundary conditions and loads affecting the device and the pipeline during the emergency repair complex were developed. The calculation of SSS (stress-strain state) was carried out, where the following results were obtained: when the frame is displaced down/up by 100 mm in the device, respectively, along the length and displacement, stresses arise at the junctions of the enclosing ring and the frame, as well as on the «lugs», exceeding the yield strength of steel; the coefficient of friction μ for the considered diameter of 1020 mm should not exceed 0,15 to prevent the occurrence of areas of plastic deformation of the pipeline during the emergency repair complex for cutting out a defective area in swamp conditions.","PeriodicalId":51816,"journal":{"name":"Bulletin of the Tomsk Polytechnic University-Geo Assets Engineering","volume":null,"pages":null},"PeriodicalIF":0.6000,"publicationDate":"2023-07-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"METHOD OF ANALYSIS OF THE STRESS-STRAIN STATE OF A BASE-CENTERING DEVICE AND A PIPELINE WHEN CARRYING OUT THE COMPLEX OF EMERGENCY AND RECOVERY REPAIRS\",\"authors\":\"Yuliya A. 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引用次数: 0
摘要
引用链接:Rakhmatullina Yu.A。,阿列克谢夫V.A., Sultanmagomedov T.S., Khasanov r .。基础中心装置和管道在进行紧急和恢复修复时的应力-应变状态分析方法。托木斯克理工大学公报。岩土工程Аssets, 2023,第334卷,第2期。7,рр.7-16。俄文。研究的相关性是由于需要计算支撑定心装置和管道的应力-应变状态,当所考虑的设备暴露在它上面时,当通过切割管道的缺陷部分进行复杂的紧急修复时,由于存在残余应力而导致轴位移时。本研究的目的是评估采用该装置设计的可能性,并计算在管道缺陷段抢修过程中,管道边界段轴线因预应力释放而发生位移时,装置的应力-应变状态。方法:经典理论力学方法、土力学方法、有限元方法。结果。基于该专利,建立了支撑定心装置的初步三维模型,并开发了一种分析应急修复综合体中影响该装置和管道的边界条件和载荷的方法。对SSS(应力-应变状态)进行了计算,得到如下结果:当框架在装置中沿长度和位移方向分别向下/向上位移100mm时,围环和框架的连接处以及“凸耳”处产生应力,超过钢材的屈服强度;在沼泽条件下,为防止管道在紧急抢修时出现塑性变形区域,考虑直径为1020mm时,其摩擦系数μ不应超过0.15。
METHOD OF ANALYSIS OF THE STRESS-STRAIN STATE OF A BASE-CENTERING DEVICE AND A PIPELINE WHEN CARRYING OUT THE COMPLEX OF EMERGENCY AND RECOVERY REPAIRS
Link for citation: Rakhmatullina Yu.A., Alekseev V.A., Sultanmagomedov T.S., Khasanov R.R. Method of analysis of the stress-strain state of a base-centering device and a pipeline when carrying out the complex of emergency and recovery repairs. Bulletin of the Tomsk Polytechnic University. Geo Аssets Engineering, 2023, vol. 334, no. 7, рр.7-16. In Rus.
The relevance of the research is caused by the need to carry out calculations of the stress-strain state of the support-centering device and the pipeline, when the device under consideration is exposed to it, when the axes are displaced due to the presence of residual stresses when carrying out a complex of emergency repair by cutting out a defective section of the pipeline. The purpose of the study is to assess the possibility of using the design of the device and to calculate the stress-strain state of the device when the axes of the boundary sections of the pipeline are displaced due to the release of prestresses during the emergency repair complex for cutting out the defective section of the pipeline. Methods: methods of classical theoretical mechanics, soil mechanics, finite element method. Results. Based on the patent, a preliminary 3D model of the support-centering device and a method for analyzing the boundary conditions and loads affecting the device and the pipeline during the emergency repair complex were developed. The calculation of SSS (stress-strain state) was carried out, where the following results were obtained: when the frame is displaced down/up by 100 mm in the device, respectively, along the length and displacement, stresses arise at the junctions of the enclosing ring and the frame, as well as on the «lugs», exceeding the yield strength of steel; the coefficient of friction μ for the considered diameter of 1020 mm should not exceed 0,15 to prevent the occurrence of areas of plastic deformation of the pipeline during the emergency repair complex for cutting out a defective area in swamp conditions.
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