Experimental and calculated evaluation of carbon fiber reinforcing for increasing concrete columns carrying capacity

Кузина, Екатерина; Rimshin, Vladimir

doi:10.1051/e3sconf/20199704007

Cited by 12 publications

(4 citation statements)

References 9 publications

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“…At the moment of internal forces coincidence and force resistance, the reinforced concrete element is destroyed. The force resistance is equal to zero, which is equivalent to an impulsive application of a reverse sign force in the fracture cross section and equal in value to the previous residual force [28][29][30].…”

Section: Resultsmentioning

confidence: 99%

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Reserves and exposure assessment of reinforced concrete structures safety while reducing its power resistance

2019

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Structural safety of buildings is such an engineering state of the structures operability, foundations, the features of their joint power resistance to expected loads and impacts, taking into account their possible combinations in direction, intensity and mode, which ensures the established functional use with established reliability. The structural safety of buildings depends on design, on compositional and structural solutions, technological measures during construction and operation, which must be provided at all stages of the facility’s existence (construction, operation, repair, reconstruction, dismantling and dismantling). It is necessary to take into account the structural safety parameters of reinforced concrete structures that have received corrosion damage during solving the problems of construction and reconstruction of buildings and structures. Suggestions to quantify the reserves and exposure of structural safety and, accordingly, the reduction in power resistance of corrosion-damaged reinforced concrete structures are presented in this article.

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Section: Resultsmentioning

confidence: 99%

“…Next, the maximum allowable load is calculated. (27) and correspondingly (28) or (29) B. Damaged identical columns with various supporting anchors are considered.…”

Section: Wherementioning

confidence: 99%

Reserves and exposure assessment of reinforced concrete structures safety while reducing its power resistance

2019

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“…During the technical examination of structures exposed to temperature effects, the following were established: appearance, color, solidity, presence of foreign inclusions, surface looseness, cavities, shells, voids, opening width and depth of cracks, corrosion of reinforcement and concrete, chips and abrasion of the concrete surface [19][20][21][22][23][24][25][26][27].…”

Section: Methodsmentioning

confidence: 99%

Assessment of the Impact of High Temperature on the Strength of Reinforced Concrete Structures during Operation

Rimshin

Telichenko

Кришан

et al. 2021

KEM

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Presented here are the results of assessing the effect of elevated temperature on the strength characteristics of reinforced concrete structures during operation. Described here are the features of the technical inspection of structures subjected to temperature effects (after a fire). The strength class of reinforced concrete structures was determined before temperature exposure (in places that were not exposed to fire) and after in the course of the study. Presented are the results of measuring the strength of concrete by the direct method of pulling off with spalling, as well as the results of verification calculations of reinforced concrete structures exposed to temperature effects. When performing verification calculations, the percentage of reduction in the bearing capacity of structures was established. Based on the results of the study, the percentage ratio of the decrease in the strength of prefabricated reinforced concrete structures after a fire during the operation of the facility was established.

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“…Real reinforced concrete structures, especially those of environmental protection, communication and communal use, have an increased risk degree of unacceptable damage caused by technogenic or biological aggressive effects (the effect is considered as corrosion damage). The problem of ensuring the state of fracture toughness (absence of cracks) for a specified period of time has the problem of predicting the moment of cracks occurrence in the stretched zones of reinforced concrete elements with the maximum in terms of quantity and significance factors of strength and corrosion content [10][11][12][13][14][15][16][17][18].…”

Section: Methodsmentioning

confidence: 99%

Residual resource of power resistance during building structures deformation

2019

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Modern scientific research and design developments, based on the fundamental principles of physics, mechanics and thermodynamics, are developing in a phenomenological direction. This implementation is found both in traditional integrated models of reinforced concrete using the advantages of computer technology, and in discrete models following the grid methods of solid deformable body mechanics. Discrete models in content and chronology over time are hereditary with respect to integral models. The theoretical basis for calculating the residual life of the force resistance to deformation, determines the stiffness of the cross sections of reinforced concrete elements with a maximum bending moment and with zero bending moment are presented in this article.

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Experimental and calculated evaluation of carbon fiber reinforcing for increasing concrete columns carrying capacity

Cited by 12 publications

References 9 publications

Reserves and exposure assessment of reinforced concrete structures safety while reducing its power resistance

Reserves and exposure assessment of reinforced concrete structures safety while reducing its power resistance

Assessment of the Impact of High Temperature on the Strength of Reinforced Concrete Structures during Operation

Residual resource of power resistance during building structures deformation

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