Fiber Beam Analysis of Reinforced Concrete Members with Cyclic Constitutive and Material Laws

Fiber Beam Analysis of Reinforced Concrete Members with Cyclic Constitutive and Material Laws

This paper presents a non-linear Timoshenko beam element with axial, bending, and shear force interaction for nonlinear analysis of reinforced concrete structures. The structural material tangent stiffness matrix, which relates the increments of load to corresponding increments of displacement, is p...

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Veröffentlicht in:International journal of concrete structures and materials 2018, 12(6), 43, pp.885-900
Hauptverfasser: Ravi Mullapudi, T., Ayoub, Ashraf
Format: Artikel
Sprache:eng
Schlagworte:
Building Materials
combined loading
Concrete
Concrete beams
Concrete structures
Correlation analysis
Cyclic loads
Engineering
Fiber reinforced concrete
Finite element method
Mechanical properties
Nonlinear analysis
Nonlinear programming
Original Article
R/C beams
Reinforced concrete
Solid Mechanics
Stiffness matrix
Structural Materials
tangent stiffness
Tensile strain
Timoshenko beam
Timoshenko beams
uni-axial constitutive relations
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Zusammenfassung:This paper presents a non-linear Timoshenko beam element with axial, bending, and shear force interaction for nonlinear analysis of reinforced concrete structures. The structural material tangent stiffness matrix, which relates the increments of load to corresponding increments of displacement, is properly formulated. Appropriate simplified cyclic uniaxial constitutive laws are developed for cracked concrete in compression and tension. The model also includes the softening effect of the concrete due to lateral tensile strain. To establish the validity of the proposed model, correlation studies with experimentally-tested concrete specimens have been conducted.
ISSN:1976-0485
2234-1315
DOI:10.1186/s40069-018-0286-z