Title:
Theoretical Evaluation of the Break Off Test for Concrete
Author(s):
M. Wecharatana and A. P. Ranasinghe
Publication:
Symposium Paper
Volume:
143
Issue:
Appears on pages(s):
166-190
Keywords:
beams (supports); compressive strength; cracking (fracturing); crack width and spacing; flexural strength; fracture mechanics; models; nondestructive tests; stresses; tests; theories; Structural Research
DOI:
10.14359/4584
Date:
5/1/1994
Abstract:
The break-off test is a recently developed nondestructive test for concrete. Although many experimental investigations have been carried out on this test, no in-depth theoretical evaluation has been done. In this study, the behavior of the break-off test specimen is investigated, and the theoretical basis of the test is explored. Based on linear elastic fracture mechanics, a model to predict the strength-manometer reading relationship of the test is proposed and compared with experimental results with good correlation. It was found that the ACI recommendation on the modulus of rupture (MOR) may be very conservative for certain members. The MOR of a rectangular beam is different from that observed from a circular cross section, such as the break-off test specimen. New MOR values are suggested for small rectangular beams and members with circular cross sections.