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Shear strength prediction of high strength steel reinforced reactive powder concrete beams

Jin, Q., He, D., Cao, X. , Fu, F. ORCID: 0000-0002-9176-8159, Chen, Y., Zhang, M. & Ren, Y. (2024). Shear strength prediction of high strength steel reinforced reactive powder concrete beams. Advances in Concrete Construction, 17(2), pp. 75-92. doi: 10.12989/acc.2024.17.2.072

Abstract

High Strength steel reinforced Reactive Powder Concrete (RPC) Beam is a new type of beams which has evident advantages than the conventional concrete beams. However, there is limited research on the shear bearing capacity of high-strength steel reinforced RPC structures, and there is a lack of theoretical support for structural design. In order to promote the application of high-strength steel reinforced RPC structures in engineering, it is necessary to select a shear model and derive applicable calculation methods. By considering the shear span ratio, steel fiber volume ratio, longitudinal reinforcement ratio, stirrup ratio, section shape, horizontal web reinforcement ratio, stirrup configuration angle and other variables in the shear test of 32 high-strength steel reinforced RPC beams, the applicability of three theoretical methods to the shear bearing capacity of high-strength steel reinforced RPC beams was explored. The plasticity theory adopts the RPC200 biaxial failure criterion, establishes an equilibrium equation based on the principle of virtual work, and derives the calculation formula for the shear bearing capacity of high-strength steel reinforced RPC beams; Based on the Strut and Tie Theory, considering the softening phenomenon of RPC, a failure criterion is established, and the balance equation and deformation coordination condition of the combined force are combined to derive the calculation formula for the shear bearing capacity of high-strength reinforced RPC beams; Based on the Rankine theory and Rankine failure criterion, taking into account the influence of size effects, a calculation formula for the shear bearing capacity of high-strength reinforced RPC beams is derived. Experimental data is used for verification, and the results are in good agreement with a small coefficient of variation.

Publication Type: Article
Additional Information: Copyright © 2024 Techno-Press ALL RIGHTS RESERVED.
Publisher Keywords: high strength reinforcement; plastic theory; rankine theory; reactive powder concrete; reinforcement ratio; section shape; span to depth ratio; stirrup ratio; strut and tie
Subjects: T Technology > TH Building construction
Departments: School of Science & Technology
School of Science & Technology > Engineering
SWORD Depositor:
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