胶凝材料技术中基于cauchy的建模

IF 1 Q3 ENGINEERING, CIVIL

Archives of Civil Engineering Pub Date : 2023-11-06 DOI:10.24425/ACE.2020.131804

P. Stroeven, M. Słowik

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引用次数: 1

摘要

柯西为混凝土技术和其他领域的模型构建铺平了道路。他通过测量随机的总投影来确定(非平坦的)三维表面面积。类似地，他通过测量总投影来确定二维曲线的长度。本文将给出数学表达式，因为在混凝土技术的许多分支中，建模都是基于这样的柯西概念。这些分支——压缩、拉伸或剪切断口学、纤维增强和渗透率估计——将简要地提到以证明这一点。研究发现，对于所讨论的工程相关领域，胶凝材料的主要模型参数与柯西在19世纪提出的模型参数相似。本文综述了以往在断口学、纤维增强和断裂粗糙度方面的一些研究，并主要介绍了孔隙度测量的新进展。特别是一个新的成功实施的方法(也基于柯西)优化渗透率估计将讨论。

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Cauchy-based modelling in cementitious materials technology

Cauchy paved the way for constructing models in concrete technology, and elsewhere. He determined the (non-flat) surface area in 3D by measuring random total projections. Analogously, he determined the length of a curved line in 2D by way of measuring the total projections. The paper will present the mathematical expressions, because in many branches of concrete technology, modelling is found based on such Cauchy concepts. These branches - fractography in compression, tension or shear, fibre reinforcement and permeability estimation - will briefly be mentioned to demonstrate this. It has been found that, for the discussed fields of engineering relevance, major model parameters for cementitious materials are similar to those developed by Cauchy in the 19th century. In the paper some previous investigations concerning fractography, fibre reinforcement and fracture roughness will be summarized but basically a new development on porosimetry will be presented. Particularly a new achievement of successful implementation of the methodology (also based on Cauchy) for optimizing permeability estimation will be discussed.

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来源期刊

Archives of Civil Engineering ENGINEERING, CIVIL-

CiteScore

1.50

自引率

28.60%

发文量

审稿时长

24 weeks

期刊介绍： ARCHIVES OF CIVIL ENGINEERING publish original papers of the theoretical, experimental, numerical and practical nature in the fields of structural mechanics, soil mechanics and foundations engineering, concrete, metal, timber and composite polymer structures, hydrotechnical structures, roads, railways and bridges, building services, building physics, management in construction, production of construction materials, construction of civil engineering structures, education of civil engineers.