Publication detail
Study of Latent Self-healing Ability of Sodium Hydroxide Activated Blast Furnace Slag Systems via Non-destructive Measurement
Dvorak R., Topolar L., Bilek V., Hruby P.
Original Title
Study of Latent Self-healing Ability of Sodium Hydroxide Activated Blast Furnace Slag Systems via Non-destructive Measurement
Type
conference paper
Language
English
Original Abstract
Alkali-activated systems represent applicable alternative binder material to conventional cement. Such material has advantage in utilization of secondary raw materials and much lower input energy and carbon dioxide emissions compared to manufacturing of PC. The goal of this publication is either prove or disprove the presence of latent self-healing ability of prepared systems based on the alkali-activated blast furnace slag by means of non-destructive measurements.
Keywords
Alkali-activated systems; Blast furnace slag; Non-destructive testing; Impact-echo; Concrete; Hammer method
Authors
Dvorak R., Topolar L., Bilek V., Hruby P.
Released
1. 9. 2020
Publisher
Springer, Cham
Location
Huddersfield, UK
ISBN
978-3-030-57744-5
Book
Smart Innovation, Systems and Technologies
Edition
1
Edition number
166
ISBN
2190-3018
Periodical
Smart Innovation, Systems and Technologies
Number
166
State
Federal Republic of Germany
Pages from
915
Pages to
926
Pages count
11
URL
BibTex
@inproceedings{BUT164893,
author="Richard {Dvořák} and Libor {Topolář} and Vlastimil {Bílek} and Petr {Hrubý}",
title="Study of Latent Self-healing Ability of Sodium Hydroxide Activated Blast Furnace Slag Systems via Non-destructive Measurement",
booktitle="Smart Innovation, Systems and Technologies",
year="2020",
series="1",
journal="Smart Innovation, Systems and Technologies",
number="166",
pages="915--926",
publisher="Springer, Cham",
address="Huddersfield, UK",
doi="10.1007/978-3-030-57745-2\{_}75",
isbn="978-3-030-57744-5",
issn="2190-3018",
url="https://link.springer.com/chapter/10.1007/978-3-030-57745-2_75"
}