ព្រឹត្តិបត្រស្រាវជ្រាវ (Research Articles)

Title
Numerical Model for Predicting the Structural Response of Composite UHPC–concrete Members Considering the Bond Strength at the Interface
Author(s)Hor Yin, Kazutaka Shirai, Wee Teo
Status 84 views, 0 downloads Download
Keywords   Finite element modelling;     Interfacial bond strength;     LS-DYNA     UHPC strengthening;     Ultrahigh-performance concrete (UHPC);  
Abstract

In this study, an improved finite element (FE) model was developed for the prediction of the structural behaviour of reinforced concrete members strengthened with ultrahigh-performance concrete (UHPC). A concrete damage model and an implicit solver in LS-DYNA were adopted in the numerical simulation. The model was calibrated and validated using experimental data. Accurately representing the interfacial bond characteristics of composite UHPC–concrete members was the primary challenge in developing the modelling technique. A novel technique using equivalent beam elements at the interface between UHPC and normal strength concrete (NSC) substrate was proposed for this purpose. The material properties of the equivalent beam elements were defined to represent the equivalent bond characteristics of NSC. The developed FE model was found to be able to effectively and efficiently predict the structural response of composite UHPC–concrete members with good accuracy.

JournalComposite Structures
Publisher/InstitutionElsevier
Field/FacultyFaculty of Engineering
Publication Year2019
Volumn215
Issue-
Pages185-197
DOIhttps://doi.org/10.1016/j.compstruct.2019.02.040
Recommended CitationHor Yin, Kazutaka Shirai, Wee Teo. (2019). Numerical Model for Predicting the Structural Response of Composite UHPC–concrete Members Considering the Bond Strength at the Interface. Composite Structures, 215, 185-197
Contact Emailyin_hor@yahoo.com