Publication detail
Use of Thermal Insulating Perlite Composite Materials Based on Geocement to Protect Technological Equipment
PETRANEK, V. GUZII, S. KRYVENKO, P. SOTIRIADIS, K. MANAK, J.
Original Title
Use of Thermal Insulating Perlite Composite Materials Based on Geocement to Protect Technological Equipment
Type
journal article - other
Language
English
Original Abstract
Two different thermal insulating materials based on geocement (formulated as Na2O.Al2O3.6SiO2.20H2O) were produced as possible environmentally friendly materials, to substitute existing thermal insulation of technological equipment. Expanded perlite was added as filler during the mixing process. The two thermal insulating perlite composite materials were produced in the form of two-component mixture with a ratio of liquid phase (geocement dispersion) to solid phase (perlite) of 3:1.8 and 3:1.0. The developed materials are characterized by: compressive strength of 0.11-0.14 MPa; average density of 296-320 kg/m3; thermal conductivity coefficient of 0.068-0.078 W/m.K; adhesion on metal surface of 1.15-1.32 MPa. The measured temperatures on the thermal insulation coatings of technological equipment confirm the effectiveness of the materials developed. These materials, having a thickness not exceeding 3.5 cm, are recommended for application to technological equipment of complex geometric shape at an operating temperature until 1073 K.
Keywords
Coating; geocement; fillers; thermal insulating materials
Authors
PETRANEK, V.; GUZII, S.; KRYVENKO, P.; SOTIRIADIS, K.; MANAK, J.
RIV year
2013
Released
13. 12. 2013
Location
Switzerland
ISBN
1022-6680
Periodical
Advanced Materials Research
Year of study
860-863
Number
2013
State
Swiss Confederation
Pages from
1342
Pages to
1345
Pages count
4
BibTex
@article{BUT105774,
author="Vít {Petránek} and Segrii {Guzii} and Pavlo {Kryvenko} and Konstantinos {Sotiriadis} and Jan {Maňák}",
title="Use of Thermal Insulating Perlite Composite Materials Based on Geocement to Protect Technological Equipment",
journal="Advanced Materials Research",
year="2013",
volume="860-863",
number="2013",
pages="1342--1345",
doi="10.4028/www.scientific.net/AMR.860-863.1342",
issn="1022-6680"
}