e-ISSN : 0975-4024 p-ISSN : 2319-8613   
CODEN : IJETIY    

International Journal of Engineering and Technology

Home
IJET Topics
Call for Papers 2021
Author Guidelines
Special Issue
Current Issue
Articles in Press
Archives
Editorial Board
Reviewer List
Publication Ethics and Malpractice statement
Authors Publication Ethics
Policy of screening for plagiarism
Open Access Statement
Terms and Conditions
Contact Us

ABSTRACT

ISSN: 0975-4024

Title : Mode I Concrete Characterization using Rebar Induction Heating
Authors : Fokwa Didier, F. Ngapgue, T. Nsongo. M. Mpessa, T. Tamo Tatietse
Keywords : Induction heating, rebar, crack opening displacement, images correlation, stress intensity factor, energy release rate.
Issue Date : Apr-May 2012
Abstract :
Reinforced concrete is a composite material consisting in a rebar embedded in a concrete matrix. The structural equilibrium depends of the quality of bond between the two materials as well as the intrinsic quality of each of the components. When the structure is submitted to heating, cracking can occur due to the difference in thermal expansion properties between the two materials. In the present work, a theoretical approach, correlating rebar expansion rate under a heating process, to the fracture properties of concrete is proposed. The validating test consists in a Double Cantilever concrete Beam, with an initial crack length a0, a rebar embedded at a distance a0 from the crack tip. The rebar is heated through an induction process and its expansion induces a crack opening displacement at the level of the concrete. The deformation of the concrete due to the rebar expansion induces at the level of the crack tip, a displacement as well as a stress field, leading to the crack propagation. In order to follow the development of the displacement field at the level of the crack front, a digital camera is used to capture pictures of that zone at various steps (two images per minute) of the heating process. The images are then analysed with image correlation techniques to obtain the displacement field as well as the strain field, and then the time of crack propagation. The critical crack opening displacement, the critical energy release and Stress Intensity Factor corresponding to the time of crack propagation, can be deduced with a good accuracy.
Page(s) : 71-81
ISSN : 0975-4024
Source : Vol. 4, No.2