SGGW

Polska Bibliografia Naukowa

Index Copernicus Journal Master List

AGRO

Issue 18 (1) 2019 pp. 69-75

Karol Prałat, Wojciech Kubissa, Roman Jaskulski, Justyna Ciemnicka, Sławomir Pilarczyk

Wydział Budownictwa, Mechaniki i Petrochemii, Politechnika Warszawska, Płock

Influence of selected micro additives on thermal conductivity and surface microstructure of modified gypsum

Keywords: thermal conductivity, micro additives, surface microstructure, nanomaterials
Abstract:

The presented work includes experimental data on the influence of micromaterials on thermal conductivity
of gypsum. In this research used: microspheres, aerogel and polymer hydroxyethyl methyl cellulose. The
polymer and the aerogel are used as an additive in the weight fraction, up to 1% and the microspheres in the
weight fraction, up to 10% of gypsum. For the purpose of measuring of thermal conductivity, a non-stationary
method with the Isomet 2114 experimental setup was used. A decrease of thermal conductivity and density
with added microproducts were observed because of structure modifications of the gypsum product. Additional
microscopic images of the fractures of modified gypsum were made.

pub/18_1_69.pdf Full text available in Adobe Acrobat format:
http://www.architectura.actapol.net/volume18/issue1/18_1_69.pdf

For citation:

MLA Prałat, Karol, et al. "Influence of selected micro additives on thermal conductivity and surface microstructure of modified gypsum." Acta Sci.Pol. Architectura 18.1 (2019): 69-75.
APA Prałat, K. et al. (2019). Influence of selected micro additives on thermal conductivity and surface microstructure of modified gypsum. Acta Sci.Pol. Architectura, 18 (1), 69-75
ISO 690 Prałat, Karol, et al. Influence of selected micro additives on thermal conductivity and surface microstructure of modified gypsum. Acta Sci.Pol. Architectura, 2019, 18.1: 69-75.
EndNote BibTeX RefMan
Streszczenie w języku polskim:
http://www.architectura.actapol.net/tom18/zeszyt1/abstrakt-69.html