ព្រឹត្តិបត្រស្រាវជ្រាវ (Research Articles)

Title
Flexural Capacity Prediction of Composite RC Members Strengthened with UHPC Based on Existing Design Models
Author(s)Kazutaka Shirai, Hor Yin, Wee Teo
Status 89 views, 0 downloads Download
Keywords   Failure mode     Flexural strength;     Reinforced concrete structure;     UHPC layer;     UHPC-concrete composite member;     Ultra-high performance concrete (UHPC);  
Abstract

Ultra-high-performance concrete (UHPC), a new generation of cementitious materials with very high strength, ductility, and durability, has been used for enhancing reinforced concrete (RC) structures as a strengthening material. The structural performance of RC members strengthened by UHPC or UHPC-concrete composite members is significantly improved. However, there are few methods for predicting the capacity of UHPC-concrete composite members. The present study proposes a simple method based on existing design models for the prediction of the flexural strength of composite RC members strengthened with UHPC at the tension zone. Rectangular stress block diagrams are used for the compression and tension zones of the conventional concrete and UHPC layers, respectively, in a composite section. The prediction results show good agreement with experimental results. The failure modes are predicted and compared with those observed in an actual test. Furthermore, a parametric study is carried out by varying some parameters, including the thickness of the UHPC layer and the compressive strength of UHPC. The results show that the proposed method can predict the flexural strength of UHPC-concrete composite members.

JournalStructures
Publisher/InstitutionElsevier
Field/FacultyFaculty of Engineering
Publication Year2020
Volumn23
Issue-
Pages44-55
DOIhttps://doi.org/10.1016/j.istruc.2019.09.017
Recommended CitationKazutaka Shirai, Hor Yin, Wee Teo. (2020). Flexural Capacity Prediction of Composite RC Members Strengthened with UHPC Based on Existing Design Models. Structures, 23, 44-55
Contact Emailyin_hor@yahoo.com