基于一致逼近法的rcmrf最小成本设计

IF 2.9 4区工程技术 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Computers and Concrete Pub Date : 2020-07-01 DOI:10.12989/CAC.2020.26.1.001

A. Habibi, Mobin Shahryari, H. Rostami

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引用次数: 0

摘要

本文提出了一种钢筋混凝土框架自动优化设计方法。该过程包括以优化问题的形式对设计问题进行表述和求解。以R/C车架总成本最小为优化问题的目标。在本研究中，采用一致逼近法明确地表达了设计变量的约束条件和目标函数。在该方法中，主要的优化问题被一系列显式的子问题所取代。利用序列二次规划(Sequential Quadratic Programming, SQP)方法有效地求解了各子问题。通过一个四层框架和一个八层框架对所提出的方法进行了验证，并将优化结果与现有文献进行了比较。结果表明，本文所提出的方法可以很容易地应用于钢筋混凝土抗弯矩框架的合理、可靠、经济和实用的设计，但经过一些分析，其结果是收敛的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Minimum cost design of RCMRFs based on consistent approximation method

In this paper, a procedure for automated optimized design of reinforced concrete frames has been presented. The procedure consists of formulation and solution of the design problem in the form of an optimization problem. The minimization of total cost of R/C frame has been taken as the objective of optimization problem. In this research, consistent approximation method is applied to explicitly formulate constraints and objective function in terms of the design variables. In the presented method, the primary optimization problem is replaced with a sequence of explicit sub-problems. Each sub-problem is efficiently solved using the Sequential Quadratic Programming (SQP) method. The proposed method is demonstrated through a four-story frame and an eight-story frame, and the optimum results are compared with those in the available literature. It is shown that the proposed method can be easily applied to obtain rational, reliable, economical and practical designs for Reinforced Concrete Moment Resisting Frames (RCMRFs) while it is converged after a few analyses.

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来源期刊

Computers and Concrete 工程技术-材料科学：表征与测试

CiteScore

8.60

自引率

7.30%

发文量

审稿时长

13.5 months

期刊介绍： Computers and Concrete is An International Journal that focuses on the computer applications in be considered suitable for publication in the journal. The journal covers the topics related to computational mechanics of concrete and modeling of concrete structures including plasticity fracture mechanics creep thermo-mechanics dynamic effects reliability and safety concepts automated design procedures stochastic mechanics performance under extreme conditions.