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RESEARCH PRODUCT
Mechanical and Thermal Properties of Insulating Sustainable Mortars with Ampelodesmos mauritanicus and Pennisetum setaceum Plants as Aggregates
D. BadagliaccoAntonino ValenzaBartolomeo MegnaTommaso La MantiaCarmelo Sanfilipposubject
TechnologyThermogravimetric analysisMechanical characterizationMaterials scienceQH301-705.5Scanning electron microscopeQC1-9990211 other engineering and technologies02 engineering and technologyCrimson fountaingrassSustainable mortarThermal conductivityThermal insulationSurface treatments021105 building & constructionGeneral Materials ScienceFiberBiology (General)Composite materialPorosityQD1-999InstrumentationFluid Flow and Transfer ProcessesCementReinforced mortarbusiness.industryTPhysicsProcess Chemistry and TechnologyGeneral EngineeringEngineering (General). Civil engineering (General)021001 nanoscience & nanotechnologyComputer Science ApplicationsChemistryThermal conductivityTA1-2040Natural fibersMortarDiss0210 nano-technologybusinessdescription
The use of natural fibers in cement composites is a widening research field as their application can enhance the mechanical and thermal behavior of cement mortars and limit their carbon footprint. In this paper, two different wild grasses, i.e., Ampelodesmos mauritanicus, also called diss, and Pennisetum setaceum, also known as crimson fountaingrass, are used as a source of natural aggregates for cement mortars. The main purpose is to assess the possibility of using the more invasive crimson fountaingrass in place of diss in cement-based vegetable concrete. The two plant fibers have been characterized by means of scanning electron microscopy (SEM), helium picnometry and thermogravimetric analysis. Moreover, the thermal conductivity of fiber panels has been measured. Mortars samples have been prepared using untreated, boiled and Polyethylene glycol 4000 (PEG) treated fibers. The mechanical characterization has been performed by means of three point bending and compression tests. Thermal conductivity and porosity have been measured to characterize physical modification induced by fibers’ treatments. The results showed better thermal and mechanical properties of diss fiber composites than fountaingrass one and that fiber treatments lead to a reduction of the thermal insulation properties.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-06-25 | Applied Sciences |