Laboratory and Full-Scale Tests of Modern Chimney Casings Based on Lightweight Perlite Concrete with Hydrophobic Admixtures
Arkadiusz Mordak, Krzysztof Drozdzol, Damian Beben, Pawel Jarzynski

TL;DR
Researchers tested lightweight perlite concrete with hydrophobic additives to improve chimney casings, finding that these additives effectively reduce moisture absorption while maintaining structural strength.
Contribution
The study introduces optimized hydrophobic admixtures for perlite concrete to meet strict moisture and strength requirements for chimney casings.
Findings
Hydrophobic admixtures significantly reduced water absorption and capillary uptake in perlite concrete.
Concrete mix achieved required bulk density and compressive strength while maintaining moisture resistance.
Production line tests confirmed the effectiveness of the optimized mix under real-world conditions.
Abstract
Currently, chimney technology is looking for new materials with improved thermal insulation properties and, at the same time, adequate durability. The use of concretes based on lightweight aggregates, such as expanded perlite, is capable of meeting such a challenge, provided that the composition of the concrete mixes is appropriately modified. The main research challenge when designing chimney system casing elements lies in ensuring adequate resistance to moisture penetration (maximum water absorption of 25%), while achieving the lowest possible bulk density (below 1000 kg/m3), sufficient compressive strength (minimum 3.5 MPa), and capillary water uptake not exceeding 0.6%. In the present research, laboratory tests were conducted to improve the fundamental technical properties of lightweight perlite-based concrete to meet the aforementioned requirements. Laboratory tests of perlite…
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Taxonomy
TopicsInnovations in Concrete and Construction Materials · Concrete and Cement Materials Research · Magnesium Oxide Properties and Applications
