A Class of Efficient Sixth-Order Iterative Methods for Solving the Nonlinear Shear Model of a Reinforced Concrete Beam

In this paper, we present a three-step sixth-order class of iterative schemes to estimate the solutions of a nonlinear system of equations. This procedure is designed by means of a weight function technique. We apply this procedure for predicting the shear strength of a reinforced concrete beam. The...

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Bibliographic Details
Published in:Mathematics (Basel) 2024-02, Vol.12 (3), p.499
Main Authors: Padilla, José J., Chicharro, Francisco I., Cordero, Alicia, Hernández-Díaz, Alejandro M., Torregrosa, Juan R.
Format: Article
Language:English
Subjects:
Analysis
Composite materials
Computational efficiency
Computing costs
Concrete
Constitutive models
convergence order
Cracks
Efficiency
Iterative methods
Iterative methods (Mathematics)
Mathematical models
Methods
Nonlinear systems
Nonlinear theories
Parameters
Prestressed concrete
Reinforced concrete
Reinforced concrete construction
Reinforcing steels
Shear (Mechanics)
shear behaviour
Shear strength
Weighting functions
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Summary:In this paper, we present a three-step sixth-order class of iterative schemes to estimate the solutions of a nonlinear system of equations. This procedure is designed by means of a weight function technique. We apply this procedure for predicting the shear strength of a reinforced concrete beam. The values for the parameters of the nonlinear system describing this problem were randomly selected inside the prescribed ranges by technical standards for structural concrete. Moreover, some of these parameters were fixed taking into consideration the solvability region of the adopted steel constitutive model. The effectiveness of the new class is also compared with other current schemes in terms of the computational efficiency and numerical performance, with very good results. The advantages of this new class come from the low computational cost, due to the existence of an only inverse operator.
ISSN:2227-7390
2227-7390
DOI:10.3390/math12030499