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A High Ductility Micro-Damage Reinforced Concrete Frame Beam

A technology of reinforced concrete and frame beams, applied in the direction of girders, joists, trusses, etc., can solve the problems of plastic damage, destruction, and failure to continue to use, and achieve the effect of improving the compression capacity and toughness

Active Publication Date: 2021-11-26
CHINA UNIV OF MINING & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, the cost of the above-mentioned traditional anti-seismic measures is that the structure undergoes irreversible plastic damage or even destruction under a large earthquake, which is specifically manifested in: the tensile longitudinal reinforcement is hardened, brittle, and elongated due to multiple plastic yields, making it impossible to continue to use The compressed concrete is brittle due to repeated reciprocating high-strain compression, and what's more, the concrete at the protective layer often falls off in a large area
Obviously, this result cannot meet the requirements of the current engineering structure to develop towards high toughness.

Method used

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  • A High Ductility Micro-Damage Reinforced Concrete Frame Beam
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  • A High Ductility Micro-Damage Reinforced Concrete Frame Beam

Examples

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Embodiment 1

[0031] Embodiment one, as Figure 4 As shown, the application example of the high-ductility slightly damaged reinforced concrete frame beam of the present invention in the cast-in-place reinforced concrete frame structure: in this embodiment, the concrete of the beam concrete 1 and the cast-in-place column 101 is integrally poured, and then by cutting and other means in the Relevant parts of beam concrete 1 form beam end pressure relief groove 1-1 and beam body pressure relief groove 1-2; a plurality of local restraint stirrups 5, common longitudinal reinforcement 2, and high ductility longitudinal reinforcement are arranged at intervals at the end of the frame beam 3. Ordinary stirrups 4 are set as usual, wherein the ordinary longitudinal bars 2 and the high-ductility longitudinal bars 3 are anchored deep into the cast-in-place column 101 .

Embodiment 2

[0032] Embodiment two, such as Figure 5 As shown, the application example of the high-ductility micro-damage reinforced concrete frame beam of the present invention in the assembled integrated reinforced concrete frame structure: in this embodiment, the beam concrete 1 is composed of beam prefabricated concrete 1-3 and beam composite concrete 1-4 Composition, and then together with prefabricated upper column 201, prefabricated lower column 202, post-cast node 203 to form a frame unit. Among them, the beam end pressure relief groove 1-1 and the beam body pressure relief groove 1-2 are formed by cutting the relevant parts of the precast concrete 1-3 of the beam; multiple local restraint stirrups 5 are arranged at intervals at the end of the frame beam , the ordinary longitudinal reinforcement 2, the high ductility longitudinal reinforcement 3, and the ordinary stirrup reinforcement 4 are still set as usual, wherein the ordinary longitudinal reinforcement 2 and the high ductility ...

Embodiment 3

[0033] Embodiment three, as Figure 6 As shown, the application example of the high-ductility micro-damage reinforced concrete frame beam of the present invention in the pre-compression assembled fully prefabricated reinforced concrete frame structure: in this embodiment, the beam concrete 1 and ordinary longitudinal bars 2, ordinary stirrups 4, local constraints Stirrups 5 are integrally prefabricated, and then beam end pressure relief grooves 1-1 and beam body pressure relief grooves 1-2 are formed on relevant parts of beam concrete 1 by cutting or other means; wherein, locally constrained stirrups 5 are closed by large circles 5-1 and closed circular restraint tendons 5-2 are assembled to form ordinary longitudinal reinforcement 2, high ductility longitudinal reinforcement 3, and ordinary stirrup reinforcement 4 according to conventional settings; Pre-pressed connections.

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Abstract

The invention discloses a high-ductility micro-damage reinforced concrete frame beam, which comprises beam concrete, common longitudinal bars, high-ductility longitudinal bars, common stirrups and local constraint stirrups. U-shaped beam end pressure relief grooves and beam body pressure relief grooves are arranged on the end face of the frame beam and the lower half of the circumference of several cross sections within a certain range in the mid-span direction. The local restraint stirrup is assembled by a large circle closed stirrup and several closed circular restraint ribs slantedly sleeved in its two lower corners. The local restraint stirrup can restrain the lateral deformation of the concrete in the large circle closed stirrup, thereby improving the compressive capacity of the concrete inside the large circle closed stirrup; the pressure relief groove prevents the compressive stress in the concrete protective layer in the compression zone The amplitude is raised to avoid crushing and falling off; combined with the existing high-ductility micro-damage longitudinal reinforcement technology, it provides an effective technology for comprehensively improving the toughness of reinforced concrete frame structures.

Description

technical field [0001] The invention relates to a high-ductility micro-damage reinforced concrete frame beam, in particular to a high-ductility micro-damage reinforced concrete frame beam suitable for the technical field of construction engineering. Background technique [0002] Earthquake disaster is one of the main disasters faced by civil engineering structures. At present, one of the main technical approaches to reduce earthquake damage to structures is to adopt ductile anti-seismic structures. In reinforced concrete frame structures, the main anti-seismic measure of the structural system is to set ductile structural measures at the end sections of the frame beams, that is, to achieve plastic energy dissipation under large earthquake bending moments by setting longitudinal steel bars with good yield performance, and at the same time The shear bearing capacity of the beam end section is improved by the reinforcement measures of the stirrup, and the ductility of the concre...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E04C3/20E04C5/02E04C5/06E04B1/20
CPCE04B1/20E04C3/20E04C5/02E04C5/0613
Inventor 李富民许滨铄程琤方渝钰范力
Owner CHINA UNIV OF MINING & TECH
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