Affiliation:
1. 1 Department of Civil Engineering , Faculty of Construction Engineering, University of Mouloud Mammeri , BP 17, 15000 Tizi-Ouzou , Algeria
Abstract
Abstract
Reinforced concrete frame-wall (RC frame-Wall) structures are generally solved in a global manner by modeling the entire structure by assembling the RC frame and wall stiffness matrices into a global matrix. The bar-wall element interface is modeled at the mean line of the beam-column element, according to RPA 99, which limits the interaction to the axial and transverse components of the forces (mechanical and kinematic) thus neglecting the effects of section rotations.
In order to take into account, the rotational components of the mechanical behavior of the beams (section rotation and bending moment), the interaction between the RC frame and the wall must take place at the real interface of the two substructures, i.e. at the extreme fiber of the bar elements (beams and columns). The transmission of force from the wall to the RC frame is done by transforming the tangent stresses of the wall into moment in the beam.
Reference15 articles.
1. Zain Aldin Al-Tameemi, Sepanta Naimi, Loay M. Mubarak, 2023, numerical investigation of the dynamic soil-structure interaction of concrete buildings, Journal of Applied Engineering Science, 21(2023)2, 1088, pp. 440-450.
2. Carlos G. Dávila, Pedro P. Camanho, Albert Turon, Effective Simulation of Delamination in Aeronautical Structures Using Shells and Cohesive Elements, Journal of Aircraft, March 2008, DOI: 10.2514/1.32832.
3. Casagrande D. and al. Proposal of an analytical procedure and a simplified numerical model for elastic response of single storey timber shear-walls. Constr Build Mater (2015), http://dx.doi.org/10.1016/j.conbuildmat.2014.12.114.
4. Chaboche J.L., Feyel F. et Monerie Y., Interface debonding models: a viscous regularization with a limited rate dependency. International Journal of Solids and Structures 38, 3127–3160, 2001.
5. Dipali Patel, J. A. Amin, 2015, evaluation of shear wall-rc frame interaction of high-rise buildings using 2-d model approach, journal of materials and engineering structures, 2, pp. 111–119.