Study on the Reliability of Steel-Concrete Composite Beams Based on the Third-Order Moment Method

dc.contributor.advisorliang, chunyu
dc.contributor.authorAlashoub, Turki
dc.date.accessioned2023-07-05T07:35:59Z
dc.date.available2023-07-05T07:35:59Z
dc.date.issued2023-05-31
dc.description摘要 基于三阶矩法的混凝土组合梁可靠性研究 钢-混凝土结构是在钢结构和钢筋混凝土结构的基础上发展起来的一种新型 结构,因为其强度高、耐久性好、节约材料以及施工方便等优点,在桥梁工程领 域获得了广泛地应用。但因为组合梁抗力的影响因素非常复杂,在其理论设计和 实际使用过程中,仍存在一些问题需要进一步研究和解决,因此越来越多的学者 针对钢-混凝土组合梁进行研究,我国有关钢-混凝土组合梁结构可靠度的研究起 步较晚,仍处于发展阶段。因此,开展关于钢-混凝土组合梁结构可靠度的研究, 从而探索出一种计算过程简便、结果精确可信的分析计算方法,对于钢-混凝土 组合梁结构的设计分析以及使用过程中的可靠性评估等方面都有着至关重要的 意义。相较于传统的蒙特卡洛模拟法和一次二阶矩法,本文采用了计算精度更高、 适用范围更广的三阶矩法,对影响钢-混凝土组合梁结构可靠度的几种因素进行 了分析。接着建立了基于不同理论、不同模型和不同状态的可靠度功能函数,并 利用算例进行了计算验证。最后分别采用蒙特卡洛法、FORM 法和三阶矩法对影 响组合梁抗弯性能的主要指标进行了敏感度分析。 本文所做主要工作如下: (1)总结了可靠度计算中常用的蒙特卡洛模拟法(MCS)和包含中心点法、 验算点法和 JC 法的一次二阶矩法,结合公式推导和两种方法的研究现状,分析 总结了两种方法的优缺点; (2)分析了可靠度计算方法-三阶矩法的计算过程,相较于常用的一次二阶 矩法,三阶矩法进一步考虑了结构性能功能函数的三阶矩,即偏度,能够更加准 确地模拟出结构的功能函数图像,进而更加精确地计算结构的可靠度指标; (3)根据可靠度理论,建立关于钢-混凝土组合梁抗弯性能的功能函数,以 钢-混凝土组合梁作为研究对象,根据该梁的荷载效应,综合考虑材料性能、几 吉林大学硕士学位论文 II 何参数、计算模式计算了该梁的钢构件抗力、混凝土构件抗力和剪力连接件抗力, 通过三阶矩法计算其相应的可靠度指标,分析了三阶矩法计算结果的适用性、高 效性、准确性以及正截面抗弯的可靠度; (4)基于试验梁的功能函数模型,推导出了构件抗力、恒载作用效应以及 活载作用效应的功能函数;基于弹性理论和塑性理论分别建立钢梁、混凝土板以 及剪力连接件的承载能力功能函数,进而分别建立了三种模型在承载能力极限状 态和正常使用极限状态下的功能函数; (5)对影响钢-混凝土组合梁抗弯性能的主要指标分别采用蒙特卡洛法、 FORM 法和三阶矩法做敏感度分析,根据计算分析得出:该三阶矩法与精度较高 的蒙特卡洛法计算结果相吻合,且计算效率较蒙特卡洛法有显著提升,证明采用 三阶矩法进行钢-混凝土组合梁抗弯性能敏感度分析行之有效。计算结果表明, 组合梁的腹板厚度以及钢梁等级强度对钢-混凝土组合梁的抗弯性能影响最大, 剪力件连接强度以及配筋率影响次之,而混凝土强度仅有很小的影响。 关键词:钢-混凝土组合梁;三阶矩法;可靠度指标;敏感性分析
dc.description.abstractAbstract Study on the Reliability of Steel-Concrete Composite Beams Based on the Third-Order Moment Method Steel-concrete structure is a new type of structure developed on the basis of steel structure and reinforced concrete structure. Because of its high strength, good durability, material saving and convenient construction, it has been widely used in the field of bridge engineering. However, because the influencing factors of composite beam resistance are very complex, there are still some problems that need to be further studied and solved in its theoretical design and practical use. Therefore, more and more scholars are studying steel-concrete composite beams. The research on the structural reliability of steel-concrete composite beams in China started late and is still in the development stage. Therefore, the research on the reliability of steel-concrete composite beam structure is carried out, so as to explore an analysis and calculation method with simple calculation process and accurate and reliable results, which is of great significance for the design and analysis of steel-concrete composite beam structure and the reliability evaluation in the use process. Compared with the traditional Monte Carlo simulation method and the first-order second-moment method, this paper uses the third-order moment method with higher calculation accuracy and wider application range to analyze several factors affecting the reliability of steel-concrete composite beams. Then, the reliability performance function based on different theories, different models and different states is established, and the calculation is verified by an example. Finally, Monte Carlo method, FORM method and third-order moment method are used to analyze the sensitivity of the main indexes affecting the flexural performance of composite beams. The main work done in this paper is as follows: III 吉林大学硕士学位论文 (1)The Monte Carlo simulation method(MCS) and the first-order second-moment method including the center point method, the checking point method and the JC method commonly used in reliability calculation are summarized. Combined with the formula derivation and the research status of the two methods, the advantages and disadvantages of the two methods are analyzed and summarized. (2)The calculation process of the reliability calculation method-the third-order moment method is analyzed. Compared with the commonly used first-order second-order moment method, the third-order moment method further considers the third-order moment of the structural performance function, namely the skewness, which can more accurately simulate the performance function image of the structure, and then more accurately calculate the reliability index of the structure. (3)According to the reliability theory, the performance function of the flexural performance of steel-concrete composite beams is established. Taking a steel-concrete composite beam as the research object, according to the load effect of the beam, the resistance of the steel member, the resistance of the concrete member and the resistance of the shear connector are calculated by considering the material performance, geometric parameters and calculation mode. The corresponding reliability index is calculated by the third-order moment method, and the applicability, efficiency and accuracy of the calculation results of the third-order moment method are analyzed. Reliability of bending resistance of normal section ; (4)Based on the performance function model of the test beam, the performance function of the combined component resistance, dead load effect and live load effect is derived. Based on the bearing capacity function based on elastic theory and the bearing capacity function based on plastic theory, the bearing capacity function of steel beam concrete slab and shear connector bearing capacity model are established respectively. Reliability performance function of normal section bending based on mid-span section bending model. The three models established the performance function of the ultimate state of the bearing capacity and the performance function of IV Abstract the normal use limit state, the component resistance, the dead load effect, and the live load effect. (5)The sensitivity analysis of the main indexes affecting the flexural performance of steel-concrete composite beams is carried out by Monte Carlo method, FORM method and third-order moment method respectively. According to the calculation and analysis, it is concluded that the third-order moment method is consistent with the Monte Carlo method with higher accuracy, and the calculation efficiency is significantly improved compared with the Monte Carlo method. It is proved that the third-order moment method is effective for the sensitivity analysis of flexural performance of steel-concrete composite beams. The calculation results show that the web thickness of the composite beam and the grade strength of the steel beam have the greatest influence on the flexural performance of the steel-concrete composite beam, followed by the shear connection strength and the reinforcement ratio, while the concrete strength has only a small influence. Key words:Steel-concrete composite beam; third-order moment method; reliability index; sensitivity analysis
dc.format.extent83
dc.identifier.citationAnalysis of Key Points of Steel Structure Construction Technology in Film Engineering Projects
dc.identifier.issn23662557
dc.identifier.urihttps://hdl.handle.net/20.500.14154/68511
dc.language.isozh
dc.subjectSteel-concrete composite beam
dc.subjectthird-order moment method
dc.subjectreliability index
dc.subjectsensitivity analysis
dc.titleStudy on the Reliability of Steel-Concrete Composite Beams Based on the Third-Order Moment Method
dc.title.alternative基于三阶矩法的钢-混凝土组合梁可靠性研究
dc.typeThesis
sdl.degree.departmentTransportation College of Jilin University
sdl.degree.disciplineHighway & Railway Engineering
sdl.degree.grantorJilin University
sdl.degree.nameMaster Degree

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