Detail publikace
Crack Initiation and Volume Changes in Modified Fine-Grain Cement-Based Composite Specimens
HAVLÍKOVÁ, I. BÍLEK, V. TOPOLÁŘ, L. ŠIMONOVÁ, H. KERŠNER, Z.
Originální název
Crack Initiation and Volume Changes in Modified Fine-Grain Cement-Based Composite Specimens
Anglický název
Crack Initiation and Volume Changes in Modified Fine-Grain Cement-Based Composite Specimens
Jazyk
en
Originální abstrakt
The partial replacement of cement in concrete by an alternative admixture is a current topic in materials engineering. This is, of course, important from the financial and ecological viewpoints, but it also allows improvements in the mechanical properties and durability of cement-based composites to be achieved through the proper use of appropriate mineral admixtures. The advantages of these admixtures include their ability to suppress alkali-silica reaction (ASR).
Anglický abstrakt
The partial replacement of cement in concrete by an alternative admixture is a current topic in materials engineering. This is, of course, important from the financial and ecological viewpoints, but it also allows improvements in the mechanical properties and durability of cement-based composites to be achieved through the proper use of appropriate mineral admixtures. The advantages of these admixtures include their ability to suppress alkali-silica reaction (ASR).
Dokumenty
BibTex
@misc{BUT114127,
author="Ivana {Havlíková} and Vlastimil {Bílek} and Libor {Topolář} and Hana {Šimonová} and Zbyněk {Keršner}",
title="Crack Initiation and Volume Changes in Modified Fine-Grain Cement-Based Composite Specimens",
annote="The partial replacement of cement in concrete by an alternative admixture is a current topic in materials engineering. This is, of course, important from the financial and ecological viewpoints, but it also allows improvements in the mechanical properties and durability of cement-based composites to be achieved through the proper use of appropriate mineral admixtures. The advantages of these admixtures include their ability to suppress alkali-silica reaction (ASR).",
chapter="114127",
howpublished="print",
year="2014",
month="july",
pages="1--1",
type="miscellaneous"
}