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EXPRESSIONS OF LOAD AND STRUCTURAL DEFORMATION RELATIONSHIP FOR CYLINDRICAL AND SPHERICAL VESSELS UNDER INTERNAL PRESSURE

机译：内部压力下圆柱形和球形容器的负荷和结构变形关系的表达

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Large deformation analysis for pressure vessel is much more complex than small deformation analysis, therefore, right now, there is no common recognized direct solution for load bearing capacity of pressure vessel yet, and this restrict the application of large deformation analysis in pressure vessel design. This paper based on elastic-plastic theory and considered material strain hardening and structural deformation effects, expressions of load and structural deformation relationship were the first time being derived for cylindrical and spherical vessels under internal pressure. And its practical value is equivalent to principal stress equations of thin-walled cylindrical and spherical vessels with considering non-linear structural deformation effect. Based on the study above and by introducing true stress-strain relationship of materials, analytical solutions of plastic instability pressure for thin-walled cylindrical and spherical vessels were derived.

机译：压力容器的大变形分析比小变形分析要复杂得多，因此，目前没有公认的压力容量承载能力的公认的直接解决方案，这限制了大变形分析在压力容器设计中的应用。本文基于弹性塑料理论和考虑的材料应变硬化和结构变形效果，负荷和结构变形关系的表达是在内部压力下为圆柱形和球形容器推导出来的第一次。其实用值相当于薄壁圆柱形和球形容器的主应力方程，考虑非线性结构变形效果。基于上述研究以及通过引入材料的真实应力 - 应变关系，衍生薄壁圆柱形和球形容器的塑料不稳定压力的分析解。

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《ASME Pressure Vessels and Piping Conference》|2010年||共7页
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Yang-chun DENG; Gang CHEN;
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中图分类 TH49-53;
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1. Creep deformations and stresses in thick-walled cylindrical vessels of functionally graded materials subjected to internal pressure [J] . L.H. You, H. Ou, Z.Y. Zheng Composite Structures . 2007,第2期

机译：功能梯度材料的厚壁圆柱容器在内部压力下的蠕变变形和应力
2. Analysis of Stress in Nozzle/Shell of Cylindrical Pressure Vessel under Internal Pressure and External Loads in Nozzle [J] . Andrade, Tatiana Lima, Paula, International Journal of Engineering Research and Applications . 2015,第9期

机译：内压和外载荷作用下圆柱压力容器喷嘴/壳体的应力分析
3. Ramifications of Structural Deformations on Collapse Loads of Critically Cracked Pipe Bends Under In-Plane Bending and Internal Pressure [J] . Sumesh Sasidharan, Veerappan Arunachalam, Shanmugam Subramaniam Nuclear engineering and technology . 2017,第1期

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4. EXPRESSIONS OF LOAD AND STRUCTURAL DEFORMATION RELATIONSHIP FOR CYLINDRICAL AND SPHERICAL VESSELS UNDER INTERNAL PRESSURE [C] . Yang-chun DENG, Gang CHEN PVP2010;ASME Pressure Vessels and Piping Division/K-PVP conference . 2011

机译：内压作用下圆柱和球形容器的载荷与结构变形关系的表达
5. STRESSES IN A SPHERICAL SHELL DUE TO A UNIFORMLY DISTRIBUTED INTERNAL PRESSURE AND AN ATTACHED CYLINDRICAL NOZZLE. [D] . EICHBERGER, LE ROY CARL. 1959

机译：由于内部压力均匀分布和连接的圆柱喷嘴，在球壳中产生的应力。
6. LoadDef: A Python‐Based Toolkit to Model Elastic Deformation Caused by Surface Mass Loading on Spherically Symmetric Bodies [O] . Hilary R. Martens, Luis Rivera, Mark Simons -1

机译：LoadDef：基于Python的工具包用于建模由球对称物体上的表面质量载荷引起的弹性变形
7. LOCALIZED LOADS APPLIED TO A SPHERICAL PRESSURE VESSEL THROUGH A CYLINDRICAL INSERT [O] . R. Bailey, R. Hicks 2016

机译：通过圆柱插入应用于球形压力容器的局部负荷
8. Stability of cylindrical shells. An analytical and experimental investigation of the effects of large prebuckling deformations on the buckling of clamped thin-walled cylindrical shells subjected to axial loading and internal pressure Semiannual pro [R] . Gorman, D. 1965

机译：圆柱壳的稳定性。大型预屈曲变形对轴向受压和内压夹紧薄壁圆柱壳屈曲影响的分析和实验研究半年度试验

EXPRESSIONS OF LOAD AND STRUCTURAL DEFORMATION RELATIONSHIP FOR CYLINDRICAL AND SPHERICAL VESSELS UNDER INTERNAL PRESSURE

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