{"title":"Deformation as a measure of conformality deviation","authors":"V. Kibitkin","doi":"10.1063/1.5132024","DOIUrl":null,"url":null,"abstract":"The plane vector field for solid with constant deformation is considered. The formulae for components of the field are given. Linear character of a displacement fields and its evolution is shown at the example of plastic flow of base metal of welded joint in the neck region. Two consequent vector fields give the summary field as their sum. The high-cyclic fatigue of welded joints of Fe-17Cr-0.8Ti-0.08C steel was used to analyze. The criteria of deviation the vector field from the field, which components can be described by analytical functions, are considered. It is shown that summary declination of these criteria from the Cauchy–Riemann equations is closed to deformation. Therefore, only non-linear components of the deformation can satisfied to Cauchy–Riemann equations for the next conformal transformation.The plane vector field for solid with constant deformation is considered. The formulae for components of the field are given. Linear character of a displacement fields and its evolution is shown at the example of plastic flow of base metal of welded joint in the neck region. Two consequent vector fields give the summary field as their sum. The high-cyclic fatigue of welded joints of Fe-17Cr-0.8Ti-0.08C steel was used to analyze. The criteria of deviation the vector field from the field, which components can be described by analytical functions, are considered. It is shown that summary declination of these criteria from the Cauchy–Riemann equations is closed to deformation. Therefore, only non-linear components of the deformation can satisfied to Cauchy–Riemann equations for the next conformal transformation.","PeriodicalId":20637,"journal":{"name":"PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON ADVANCED MATERIALS WITH HIERARCHICAL STRUCTURE FOR NEW TECHNOLOGIES AND RELIABLE STRUCTURES 2019","volume":"54 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-11-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON ADVANCED MATERIALS WITH HIERARCHICAL STRUCTURE FOR NEW TECHNOLOGIES AND RELIABLE STRUCTURES 2019","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1063/1.5132024","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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Abstract

The plane vector field for solid with constant deformation is considered. The formulae for components of the field are given. Linear character of a displacement fields and its evolution is shown at the example of plastic flow of base metal of welded joint in the neck region. Two consequent vector fields give the summary field as their sum. The high-cyclic fatigue of welded joints of Fe-17Cr-0.8Ti-0.08C steel was used to analyze. The criteria of deviation the vector field from the field, which components can be described by analytical functions, are considered. It is shown that summary declination of these criteria from the Cauchy–Riemann equations is closed to deformation. Therefore, only non-linear components of the deformation can satisfied to Cauchy–Riemann equations for the next conformal transformation.The plane vector field for solid with constant deformation is considered. The formulae for components of the field are given. Linear character of a displacement fields and its evolution is shown at the example of plastic flow of base metal of welded joint in the neck region. Two consequent vector fields give the summary field as their sum. The high-cyclic fatigue of welded joints of Fe-17Cr-0.8Ti-0.08C steel was used to analyze. The criteria of deviation the vector field from the field, which components can be described by analytical functions, are considered. It is shown that summary declination of these criteria from the Cauchy–Riemann equations is closed to deformation. Therefore, only non-linear components of the deformation can satisfied to Cauchy–Riemann equations for the next conformal transformation.
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变形,作为一致性偏差的量度
考虑恒定变形固体的平面矢量场。给出了场分量的计算公式。以焊接接头颈部母材塑性流动为例,说明了位移场的线性特征及其演化规律。两个后向向量场给出总结场作为它们的和。采用Fe-17Cr-0.8Ti-0.08C钢焊接接头进行了高周疲劳分析。考虑了向量场与场的偏离准则,其中的分量可以用解析函数来描述。从Cauchy-Riemann方程得出的这些判据的总偏角与变形密切相关。因此,只有变形的非线性分量才能满足下一个保形变换的Cauchy-Riemann方程。考虑恒定变形固体的平面矢量场。给出了场分量的计算公式。以焊接接头颈部母材塑性流动为例,说明了位移场的线性特征及其演化规律。两个后向向量场给出总结场作为它们的和。采用Fe-17Cr-0.8Ti-0.08C钢焊接接头进行了高周疲劳分析。考虑了向量场与场的偏离准则,其中的分量可以用解析函数来描述。从Cauchy-Riemann方程得出的这些判据的总偏角与变形密切相关。因此,只有变形的非线性分量才能满足下一个保形变换的Cauchy-Riemann方程。
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