Title : ( Fracture characteristics of various concrete composites containing polypropylene fibers through five fracture mechanics methods )
Authors: Alireza Hosseini Mehrab , seyedmahdi amirfakhrian , Mohammad Reza Esfahani ,Access to full-text not allowed by authors
Abstract
This paper investigates and compares the experimental results of fracture characteristics in various polypropylene fiber-reinforced concretes (high strength concrete, lightweight concrete, and engineered cementitious composite) on 90 three-point bend (notched and un-notched) beams. Five widely used fracture mechanics testing methods, such as work of fracture method, stressdisplacement curve method, size effect method, J integral method, and ASTM E399, were used to investigate the fracture behavior. Results have demonstrated that fracture energy and fracture toughness improved as the dosage of polypropylene fibers increased in concretes. However, this improvement was different in concretes owing to various results of fracture mechanics testing methods and different properties of each concrete. Aggregates played significant role in the performance of polypropylene fibers on the fracture behavior of concretes. Among testing methods, the ASTM E399 showed the lowest values for the fracture toughness of concretes. Both work of fracture and stress-displacement curve methods exhibited appropriate results for the fracture energy of polypropylene fiber-reinforced concrete composites. The accuracy of size effectmethodwas acceptable for determining size-independent fracture parameters of plain high strength and lightweight concretes. Furthermore, the J integral method showed more relevant results for the fracture toughness of polypropylene fiber-reinforced engineered cementitious composite.
Keywords
engineered cementitious composite; fracture energy; high strength concrete; polypropylene fibers; size effect method.@article{paperid:1092882,
author = {Hosseini Mehrab, Alireza and Amirfakhrian, Seyedmahdi and Esfahani, Mohammad Reza},
title = {Fracture characteristics of various concrete composites containing polypropylene fibers through five fracture mechanics methods},
journal = {Materials Testing},
year = {2023},
volume = {65},
number = {1},
month = {January},
issn = {0025-5300},
pages = {10--32},
numpages = {22},
keywords = {engineered cementitious composite; fracture
energy; high strength concrete; polypropylene fibers; size
effect method.},
}
%0 Journal Article
%T Fracture characteristics of various concrete composites containing polypropylene fibers through five fracture mechanics methods
%A Hosseini Mehrab, Alireza
%A Amirfakhrian, Seyedmahdi
%A Esfahani, Mohammad Reza
%J Materials Testing
%@ 0025-5300
%D 2023