Influence of nanomaterials on properties of lime and hemp/lime composites for energy efficient wall design
Autor: | Faraj Jabber Khalaf, Fin O'Flaherty, Vincenzo Starinieri |
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Rok vydání: | 2019 |
Předmět: |
Nanocomposite
Materials science 020209 energy 0211 other engineering and technologies 02 engineering and technology Building and Construction engineering.material Nanomaterials Thermal conductivity Compressive strength 021105 building & construction Thermal 0202 electrical engineering electronic engineering information engineering engineering Composite material Porosity Lime Efficient energy use |
Zdroj: | Advances in Building Energy Research. 14:256-276 |
ISSN: | 1756-2201 1751-2549 |
DOI: | 10.1080/17512549.2019.1586584 |
Popis: | A mixture of thermal, porosity and compressive strength properties of lime based materials were determined after adding different percentages of nanomaterials to enhance performance (nSiO2, nClay and nZnO). Specimens were formulated for use in the design of a five layer energy efficient wall. Materials consisted of lime nanocomposites (used as ‘Renders’, properties determined were thermal conductivity () and porosity) and lime/hemp shiv nanocomposites for thermal isolation ('Insulators', ). A lime/hemp fibre nanocomposite, with PVAc glue for strength, was developed as a load bearing material ('Core', , strength). A solvent exchange method for drying the specimens was applied as soon as practically possible to investigate if rapid drying could be considered without adverse effects. Results showed that the maximum 28 day decrease in for the Render was by using 4% nZnO, being -18% compared to the control sample. The same render also exhibited the lowest density. For the Insulator, λ was -31% when also using 4% nZnO in comparison to the nanofree specimen. Strength of the Core exceeded 10 MPa, much greater than the minimum load bearing requirement. The paper concludes by comparing the U value of a wall utilising these findings to those from an existing lime/hemp design. |
Databáze: | OpenAIRE |
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