Detail publikace
Acoustic and Electromagnetic Emission of Lightweight Concrete with Polypropylene Fibers
ŠTOUDEK, R. TRČKA, T. MATYSÍK, M. VYMAZAL, T. PLŠKOVÁ, I.
Originální název
Acoustic and Electromagnetic Emission of Lightweight Concrete with Polypropylene Fibers
Anglický název
Acoustic and Electromagnetic Emission of Lightweight Concrete with Polypropylene Fibers
Jazyk
en
Originální abstrakt
This paper is focused on the failure monitoring in lightweight concrete (special high performance concrete which contains porous aggregate with low bulk density) with high-strength polypropylene fibers under mechanical loading. The aim was to determine how the cracks generation intensity in tested concrete samples depends on the fibers length and quantity. Our diagnostic method is based on the measurement of acoustic and electromagnetic emission signals, which occur when the solid dielectric materials are mechanically stressed.
Anglický abstrakt
This paper is focused on the failure monitoring in lightweight concrete (special high performance concrete which contains porous aggregate with low bulk density) with high-strength polypropylene fibers under mechanical loading. The aim was to determine how the cracks generation intensity in tested concrete samples depends on the fibers length and quantity. Our diagnostic method is based on the measurement of acoustic and electromagnetic emission signals, which occur when the solid dielectric materials are mechanically stressed.
Dokumenty
BibTex
@article{BUT127392,
author="Richard {Štoudek} and Tomáš {Trčka} and Michal {Matysík} and Tomáš {Vymazal} and Iveta {Plšková}",
title="Acoustic and Electromagnetic Emission of Lightweight Concrete with Polypropylene Fibers",
annote="This paper is focused on the failure monitoring in lightweight concrete (special high performance concrete which contains porous aggregate with low bulk density) with high-strength polypropylene fibers under mechanical loading. The aim was to determine how the cracks generation intensity in tested concrete samples depends on the fibers length and quantity. Our diagnostic method is based on the measurement of acoustic and electromagnetic emission signals, which occur when the solid dielectric materials are mechanically stressed.",
address="Institute of Metals and Technology",
chapter="127392",
doi="10.17222/mit.2015.138",
howpublished="print",
institution="Institute of Metals and Technology",
number="4",
volume="50",
year="2016",
month="august",
pages="547--552",
publisher="Institute of Metals and Technology",
type="journal article in Web of Science"
}