Developing thermal insulation cement-based mortars with recycled aggregate in accordance with Net Zero principles
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The performance of thermo-insulation rendering mortars with alternations in ratios
of powdered cordierite and talc was examined. The goal was to confirm that recycled
kilnware cordierite can be reapplied in the mortar design without significant deterioration in
performance in comparison with OPC mortar. Differential thermal analysis was employed for
examining thermally induced reactions. The cavitation erosion, in testing sequences ranging
from 30 to 120 minutes, was used to assess the compactness of the mortar structure. The
physico-mechanical properties of experimental mortars were investigated. The morphologies
of the mortar tablets upon cavitation were studied using a scanning electron microscope. It
was established that cordierite and talc filler in amounts up to 20% enhance microstructural
packing and mechanical strengths due to improved cementation and therefore contribute to
cavitation erosion resistance. Higher amounts of talc cause structural degradation and mass
l...oss during cavitation tests. Reducing manufacturing costs, energy consumption, and
greenhouse gas emissions are the main objectives of the production of this waste-based
construction composite, as the reuse of waste materials can help achieve a number of
Sustainable Development Goals.
Кључне речи:
alternative raw materials / sintering / differential thermal analysis / microstructure / cavitation testingИзвор:
Science of Sintering, 2024, 0, 0Издавач:
- Belgrade : Association for ETRAN Society
Финансирање / пројекти:
- Министарство науке, технолошког развоја и иновација Републике Србије, институционално финансирање - 200012 (Институт за испитивање материјала Србије - ИМС, Београд) (RS-MESTD-inst-2020-200012)
- Министарство науке, технолошког развоја и иновација Републике Србије, институционално финансирање - 200023 (Институт за технологију нуклеарних и других минералних сировина - ИТНМС, Београд) (RS-MESTD-inst-2020-200023)
Институција/група
Institut za tehnologiju nuklearnih i drugih mineralnih sirovinaTY - JOUR AU - Pavlović, Marko AU - Terzić, Anja AU - Dojčinović, Marina AU - Radulović, Dragan PY - 2024 UR - https://ritnms.itnms.ac.rs/handle/123456789/1246 AB - The performance of thermo-insulation rendering mortars with alternations in ratios of powdered cordierite and talc was examined. The goal was to confirm that recycled kilnware cordierite can be reapplied in the mortar design without significant deterioration in performance in comparison with OPC mortar. Differential thermal analysis was employed for examining thermally induced reactions. The cavitation erosion, in testing sequences ranging from 30 to 120 minutes, was used to assess the compactness of the mortar structure. The physico-mechanical properties of experimental mortars were investigated. The morphologies of the mortar tablets upon cavitation were studied using a scanning electron microscope. It was established that cordierite and talc filler in amounts up to 20% enhance microstructural packing and mechanical strengths due to improved cementation and therefore contribute to cavitation erosion resistance. Higher amounts of talc cause structural degradation and mass loss during cavitation tests. Reducing manufacturing costs, energy consumption, and greenhouse gas emissions are the main objectives of the production of this waste-based construction composite, as the reuse of waste materials can help achieve a number of Sustainable Development Goals. PB - Belgrade : Association for ETRAN Society T2 - Science of Sintering T1 - Developing thermal insulation cement-based mortars with recycled aggregate in accordance with Net Zero principles IS - 0 VL - 0 DO - 10.2298/SOS231215002P ER -
@article{ author = "Pavlović, Marko and Terzić, Anja and Dojčinović, Marina and Radulović, Dragan", year = "2024", abstract = "The performance of thermo-insulation rendering mortars with alternations in ratios of powdered cordierite and talc was examined. The goal was to confirm that recycled kilnware cordierite can be reapplied in the mortar design without significant deterioration in performance in comparison with OPC mortar. Differential thermal analysis was employed for examining thermally induced reactions. The cavitation erosion, in testing sequences ranging from 30 to 120 minutes, was used to assess the compactness of the mortar structure. The physico-mechanical properties of experimental mortars were investigated. The morphologies of the mortar tablets upon cavitation were studied using a scanning electron microscope. It was established that cordierite and talc filler in amounts up to 20% enhance microstructural packing and mechanical strengths due to improved cementation and therefore contribute to cavitation erosion resistance. Higher amounts of talc cause structural degradation and mass loss during cavitation tests. Reducing manufacturing costs, energy consumption, and greenhouse gas emissions are the main objectives of the production of this waste-based construction composite, as the reuse of waste materials can help achieve a number of Sustainable Development Goals.", publisher = "Belgrade : Association for ETRAN Society", journal = "Science of Sintering", title = "Developing thermal insulation cement-based mortars with recycled aggregate in accordance with Net Zero principles", number = "0", volume = "0", doi = "10.2298/SOS231215002P" }
Pavlović, M., Terzić, A., Dojčinović, M.,& Radulović, D.. (2024). Developing thermal insulation cement-based mortars with recycled aggregate in accordance with Net Zero principles. in Science of Sintering Belgrade : Association for ETRAN Society., 0(0). https://doi.org/10.2298/SOS231215002P
Pavlović M, Terzić A, Dojčinović M, Radulović D. Developing thermal insulation cement-based mortars with recycled aggregate in accordance with Net Zero principles. in Science of Sintering. 2024;0(0). doi:10.2298/SOS231215002P .
Pavlović, Marko, Terzić, Anja, Dojčinović, Marina, Radulović, Dragan, "Developing thermal insulation cement-based mortars with recycled aggregate in accordance with Net Zero principles" in Science of Sintering, 0, no. 0 (2024), https://doi.org/10.2298/SOS231215002P . .