FABRICATION OF ADVANCED MORTAR FOR BUILDING APPLICATION

T. Hassan, Mustafa; A. Abdul-Hamead, Alaa; M. Othman, Farhad

	FABRICATION OF ADVANCED MORTAR FOR BUILDING APPLICATION
Iraqi journal of mechanical and material engineering
Article 1, Volume 18, Issue 1, 2018, Pages 78-91
Authors
Mustafa T. Hassan; Alaa A. Abdul-Hamead; Farhad M. Othman
Abstract
In this research, cement mortar specimens were prepared with sand to cement (1:2.75) and (1, 2, and 3 wt%) of ceramic oxides (MgO, ZnO and Al2O3) at different particle sizes (11.8, 38.8, 109.8 nm), respectively. At curing time (7days), the (structural, thermal and physical) characteristics of the mortar specimens were investigated. The dry density and porosity results show that the values of density increased by (23.4, 15.6, and 9.5%), and the values of porosity decreased by (76.2, 63.8, and 56.2%) for (MgO, ZnO, and Al2O3), respectively with respect to the reference mortar specimen. The thermal conductivity results show that the values of thermal conductivity decreased by (47.27, 40.66, and 51.16%) for (MgO, ZnO and Al2O3) respectively, with respect to the reference mortar specimen . Results of characterizations tests (XRD and optical microscope) showed that the reference mortar specimen has high roughness with large number of Ca(OH)2 crystals, as well as the presence of pores, while after adding the nanopowders, it showed a decrease or disappearance of Ca(OH)2 and produced homogeneous structure of calcium silicate hydrate compound (C-S-H), in addition to a large decrease in the pores and surface roughness. This explains the significant improvement in the properties of cement mortar mixed with nanopowders, hence these mortars were very appropriate for covering walls, buildings and other outdoor building applications.
Keywords
Nanopowder; MgO; ZnO; mortar

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