钢筋混凝土厂房楼盖加固技术决策的预估论证

O. Rubin, A. Antonov, S. Lisichkin, I. Baklykov, Nikolay V. Bekin, K. E. Frolov
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引用次数: 1

摘要

介绍。与水工结构(HPP)的长期运行、重大临时荷载的安装、对单个结构元件的交替作用有关,有可能降低钢筋混凝土结构的承载能力和强度。最关键的元素之一是机器大厅的钢筋混凝土重叠,工作提出了现场和设计研究,建议用外部加固来加强结构。材料和方法。分析了科学技术文献,对结构状态进行了仪器研究和目视检查,并基于有限元法建立了三维数学模型。对结构的实际应力-应变状态进行了多元非线性计算研究。结果。目视及仪器检查显示机房钢筋混凝土楼板下缘有裂缝。对结构的实际状态进行了模拟;根据计算结果,给出了结构增益示意图。结论。通过应力-应变状态的计算研究,确定了厂房钢筋混凝土楼板下边缘存在裂缝。当施加临时技术荷载重叠时,有可能在某些区域达到钢筋的屈服强度。为了保证结构的进一步安全运行,提出了基于应力-应变状态计算结果的概念放大方案。
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ESTIMATED JUSTIFICATION OF TECHNICAL DECISION ON STRENGTHENING REINFORCED CONCRETE MACHINE HALL FLOOR
Introduction. In connection with the long-term operation of hydraulic structures (HPP), the installation of significant temporary loads, the presence of alternating effects on individual structural elements, it is possible to reduce the carrying capacity and strength of reinforced concrete structures. One of the most crucial elements is the reinforced concrete overlap of the machine hall, the work presents field and design studies, a proposal to strengthen the structures with external reinforcement. Materials and methods. The scientific and technical documentation was analyzed, instrumental studies and visual inspections of the state of the structures were carried out, and a 3D mathematical model was developed based on the finite element method. Multivariate non-linear computational studies of the actual stress-strain state of structures have been carried out. Results. Conducted visual and instrumental examination showed the presence of cracking on the lower edge of the reinforced concrete floor of the machine room. The simulation of the actual state of the structures has been carried out; according to the results of calculations, a schematic diagram of the gain of structures has been proposed. Conclusions. As a result of computational studies of stress-strain state, the occurrence of cracks on the lower edge of reinforced concrete floor of the machine hall was confirmed. When applying temporary technological loads to overlap, it is possible to achieve the yield strength of the reinforcement in certain zones. In order to ensure further safe operation of the structures, a conceptual amplification scheme based on the results of stress-strain state calculations has been proposed.
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