2023
Study of keto-hydrazide crosslinking effect in acrylic latex applied to Portland cements with respect to physical properties
POKORNÝ, Jaroslav; Lucie ZÁRYBNICKÁ; Radek ŠEVČÍK; Jiří ŠÁL; Jana MACHOTOVÁ et. al.Basic information
Original name
Study of keto-hydrazide crosslinking effect in acrylic latex applied to Portland cements with respect to physical properties
Authors
POKORNÝ, Jaroslav (203 Czech Republic, guarantor, belonging to the institution); Lucie ZÁRYBNICKÁ; Radek ŠEVČÍK (203 Czech Republic, belonging to the institution); Jiří ŠÁL (203 Czech Republic, belonging to the institution); Jana MACHOTOVÁ and Alberto VIANI
Edition
Construction and Building Materials, England, Elsevier SCI Ltd, 2023, 0950-0618
Other information
Language
English
Type of outcome
Article in a journal
Field of Study
20505 Composites
Country of publisher
United Kingdom of Great Britain and Northern Ireland
Confidentiality degree
is not subject to a state or trade secret
References:
Impact factor
Impact factor: 7.400
RIV identification code
RIV/75081431:_____/23:00002539
Organization unit
Institute of Technology and Business in České Budějovice
UT WoS
000959747300001
EID Scopus
2-s2.0-85149868175
Keywords (in Czech)
Portlandský cement; akrylový latex; ketohydrazidové síťování; transportní vlastnosti vody; mechanické vlastnosti
Keywords in English
Portland cement; acrylic latex; keto-hydrazide crosslinking; water transport properties; mechanical properties
Changed: 24/4/2023 10:32, Barbora Kroupová
Abstract
In the original language
Polymer-modified Portland-based composites are of interest for specific applications, in reason of their properties. There are different types of commercial additives and waste polymer-based materials applied to cement-based composites, however, their impacts on the environment are debatable. This work has prepared new acrylic latex additives with and without keto-hydrazide crosslinking from standardly available low-cost raw monomers. The influence of their incorporation into Portland cement-based fine-grained mortars has been investigated. The obtained results indicate that the highest effect on heat flow evolution changes has been detected in the case of latexes without crosslinking. The incorporation of both latex types into produced cement composites resulted in a significant increase in open porosity connected with the gradual decrease in mechanical resistance, especially the compressive strength. On the other hand, an important mitigation of liquid water transport properties of latex-modified composites has been achieved, and such properties can be tuned according to the used latex type and its concentration. The developed latex cement-based composites may find utilization as special materials for structures or products for water-loaded constructions or in areas with high concentrations of water-soluble salts or other pollutants.