高强自密实混凝土强度与变形特性的关系

Q4 Engineering

International Journal for Computational Civil and Structural Engineering Pub Date : 2022-06-24 DOI:10.22337/2587-9618-2022-18-2-175-183

Igor M. Bezgodov, S. Kaprielov, A. Sheynfeld

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引用次数: 0

摘要

本文提供了B30-B100级重自密实混凝土的强度和变形特性数据，其立方抗压强度为36.5-114.8 MPa。结果表明，混凝土棱柱抗压强度(36.2-104.2 MPa)比俄罗斯联邦SP 63.13330.2018建筑规范中给出的归一化值高42-64%。b80 ~ b100级高强混凝土的静态弹性模量值为44.1 ~ 48.1 GPa，比SP 63.13330.2018给出的值高出5 ~ 12%。b30 ~ b100级混凝土的极限压应变范围为261×10-5 ~ 326×10-5，超过了SP 63.13330.2018中给出的200×10-5值。建立了b30 ~ b100级自密实混凝土的完整变形图。这些非线性随混凝土强度的增加而减小。在0.85Rb加载水平下，σ-ε图的下降分支只出现在B55以下的a级混凝土中，总相对压缩应变为403.3 × 10-5。B55-B100类混凝土无下降分支。先前建立的依赖关系被细化为在加载结构的任何阶段的应变和应力的分析描述。

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RELATIONSHIP BETWEEN STRENGTH AND DEFORMATION CHARACTERISTICS OF HIGH-STRENGTH SELF-COMPACTING CON-CRETE

he paper provides data on the strength and deformation characteristics of heavy self-compacting concrete of classes B30-B100 with a cubic compressive strength of 36.5-114.8 MPa. It has been established that the values of the concrete prism compressive strength (36.2-104.2 MPa) are 42-64% higher than the normalized values given in the building code of the Russian Federation SP 63.13330.2018. The values of the static modulus of elasticity for high-strength concretes of classes B80-B100 are 44.1-48.1 GPa and exceed by 5-12% the values given in SP 63.13330.2018. The ultimate compressive strains of concrete of classes B30-B100 are in the range from 261×10-5 to 326×10-5 and exceed the value of 200×10-5 given in SP 63.13330.2018. Complete deformation diagrams of self-compacting concretes of classes B30-B100 have been constructed. The nonlinearity of these ones decreases with increasing concrete strength. The descending branch of the σ-ε diagram is observed only for concrete of a class below B55 with a total relative compres-sive strain of 403.3 × 10-5 under a loading level of 0.85Rb. Concrete of classes B55-B100 has no descending branch. Previously established dependencies are refined for the analytical description of strains and stresses at any stages of loading structures.

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来源期刊

International Journal for Computational Civil and Structural Engineering Engineering-Building and Construction

CiteScore

0.80

自引率

0.00%

发文量

审稿时长

4 weeks