Assessment and management models of the built environment

Ecodesign in materials, construction systems and the built environment

Thermal and mechanical properties of mortars reinforced with recycled brass fibres

Authors:
Roque Borinaga-Treviño, Aimar Orbe, Javier Canales, José Norambuena-Contreras
Year:
2021
Journal:
Construction and Building Materials
Quartile:
Q1
Volume:
284
ISBN/ISSN:
0950-0618
DOI:
https://doi.org/10.1016/j.conbuildmat.2021.122832
Description:

<b>ABSTRACT</b></br>

This paper aims to encourage the circular economy and merge the manufacturing and the construction industries, providing waste fibres from the electrical discharge machining of the former as raw material for the latter. The research analyses the effect on the physical, thermal and mechanical properties of mortars reinforced with brass fibres. The manuscript deals with different fibre length (10 mm, 15 mm and 25 mm) in variable percentages (0.5%, 1%, 2% and 4%). Larger amounts and longer fibres tend to increase the thermal conductivity whereas post cracking flexural strength is more dependent on fibre length.

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<b>ACKNOWLEDGEMENTS</b></br>

This work has been partly financed within the European Horizon 2020 Joint Technology Initiative Shift2Rail through contract no. 826255 (IN2TRACK2). This work has also been co-financed with the project Elkartek 2019 ref. KK-2019/00023 (GOLIAT2). The authors also wish to thank the Basque Government for financial assistance through IT919-16 and IT1314-19.

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