Design of pile-supported buried pipelines by a synthesis of FE ultimate load analyses and experimental investigations

G. Hofstetter; H. Lehar; G. Niederwanger

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Design of pile-supported buried pipelines by a synthesis of FE ultimate load analyses and experimental investigations

机译：有限元极限荷载分析与试验研究相结合的桩承式地下管道设计

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The structural behavior of buried pile-supported pipelines, made of ductile cast iron, is characterized by geometric and material nonlinearity. Geometric nonlinearity is caused by the ovalization of the pipes under vertical loading. Because of significant stress concentrations in the pipes in the vicinity of the supports on the piles, nonlinear material behavior is observed even for low load levels. In order to simplify the design of such pile-supported pipelines a design table, based on ultimate load analyses by means of the finite element method, was developed. The numerical results were confirmed y measurement s in the laboratory and on a construction site.

机译：由球墨铸铁制成的埋入桩基的管道的结构特性具有几何和材料非线性的特征。几何非线性是由垂直载荷下管道的椭圆化引起的。由于桩上支撑附近管道中的应力集中很大，因此即使在低载荷水平下也观察到非线性材料行为。为了简化这种桩承式管道的设计，基于有限元方法的极限荷载分析，设计表被开发出来。数值结果在实验室和建筑工地上通过测量确定。

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《Finite Elements in Analysis and Design》 |1999年第2期|p.97-111|共15页
作者
G. Hofstetter; H. Lehar; G. Niederwanger;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类应用数学;
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入库时间 2022-08-18 00:29:07

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Design of pile-supported buried pipelines by a synthesis of FE ultimate load analyses and experimental investigations

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