US EPA

4189495 

Journal Article 

Bond-Slip Effects on the Behaviour of RC Beam under Monotonic Loading - An Integrated 3D Computational Model using EAS Approach 

Samanta, AK; Ghosh, S 

2009 

Yes 

Computers, Materials & Continua
ISSN: 1546-2218 

12 

1 

1-37 

WOS:000272669400001 

This paper presents a formulation of hypo-elasticity based RC beam model with bond-slip. Details of the constitutive model and analysis method used are provided. A procedure has been described to carry out three-dimensional analysis considering both geometrical as well as material nonlinearity for a simply supported RC beam employing finite element technique, which uses 8-noded isoparametric hexahedral element HGS 18. Enhanced assumed strain (EAS) formulation has been utilized to predict load-deformation and internal stresses both in the elastic as well as nonlinear regime. It models the composite behaviour of concrete and reinforcements in rigid/perfect bond situation and their mutual interaction in bond-slip condition considering continuous interface elements at the material level. An attempt has been made to reduce the gap significantly between the results found experimentally and numerically using the proposed model and a computer code has been developed for the purpose. The results of the analysis are presented, discussed and compared with a few benchmark experimental results. 

Lower order elements; Finite element approach; Three-dimensional; Enhanced assumed strain (EAS); Perfect bond; Bond-slip; RC beam