Search results for " Mechanical performance"

showing 6 items of 6 documents

Strategies for waste recycling : the mechanical performance of concrete based on limestone and plastic waste

2022

Recycling is among the best management strategies to avoid dispersion of several types of wastes in the environment. Research in recycling strategies is gaining increased importance in view of Circular Economy principles. The exploitation of waste, or byproducts, as alternative aggregate in concrete, results in a reduction in the exploitation of scarce natural resources. On the other hand, a productive use of waste leads to a reduction in the landfilling of waste material through the transformation of waste into a resource. In this frame of reference, the paper discusses how to use concrete as a container of waste focusing on the waste produced in limestone quarries and taking the challenge…

Concrete -- RecyclingEnvironmental effects of industries and plantsConcrete -- AdditivesAggregates (Building materials) -- RecyclingRenewable Energy Sustainability and the EnvironmentGeography Planning and DevelopmentTJ807-830Building and ConstructionManagement Monitoring Policy and Lawconcrete; waste recycling; plastic; limestone; sustainability; mechanical performancesustainabilityTD194-195Construction industry -- Waste disposalConcrete Limestone Mechanical performance Plastic Sustainability Waste recyclingmechanical performanceRenewable energy sourcesEnvironmental sciencesSettore ICAR/09 - Tecnica Delle Costruzioniplasticwaste recyclingconcreteGE1-350Sustainable constructionlimestone
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Effectiveness of sodium acetate treatment on the mechanical properties and morphology of natural fiber-reinforced composites

2021

This paper aims to investigate the ability of an eco-friendly and cheap treatment based on sodium acetate solutions to improve the mechanical properties of flax fiber-reinforced composites. Flax fibers were treated for 5 days (i.e., 120 h) at 25 °C with mildly alkaline solutions at 5%, 10% and 20% weight content of the sodium salt. Quasi-static tensile and flexural tests, Charpy impact tests and dynamical mechanical thermal (DMTA) tests were carried out to evaluate the mechanical properties of the resulting composites. Fourier transform infrared analysis (FTIR) was used to evaluate the chemical modification on the fibers surface due to the proposed treatment, whereas scanning electron micro…

Flax fibersTechnologySettore ING-IND/22 - Scienza E Tecnologia Dei Materialiflax fibers; alkaline treatments; sodium acetate; fiber–matrix adhesion; mechanical performanceSodium acetateTScienceQCeramics and CompositesAlkaline treatmentsMechanical performanceFiber–matrix adhesionEngineering (miscellaneous)
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Performance of Thin-Film Lithium Energy Cells under Uniaxial Pressure

2008

The objective of this study was two-fold. The first objective was to determine if the all-solid-state thin-film lithium energy cells could withstand the minimal 550 kPa uniaxial pressure required for composite manufacturing, which both specimens successfully did. The second objective was to determine the upper boundary uniaxial pressure limit of operation for the all-solid-state thin-film lithium energy cells. The two all-solid- state thin-film lithium energy cells tested in the present study under uniaxial pressure performed well even when subjected to uniaxial pressures up to about 2.0 MPa. However, pressures higher than this value led to their degradation. The observed degradation was du…

Microelectromechanical systemsFabricationMaterials sciencechemistry.chemical_elementCondensed Matter PhysicsUniaxial pressureSurface pressureLithium batterythin film batteries mechanical performanceSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialichemistryGeneral Materials ScienceLithiumThin filmComposite materialEnergy (signal processing)Advanced Engineering Materials
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The durability of basalt fibres reinforced polymer (BFRP)

2014

The technology of dry assembly for the production of multi-layer panels has evolved over the past 30 years, becoming an efficient alternative to traditional systems. The direction taken by the market has been increasingly drawn to eco-sustainable systems and in this way, the interest in the use of laminated composite panels for cladding, basalt fibres based. Basalt is a natural rock, silica based, which is produced through a variety of industrial processes into filaments, wool, chopped strands and fabrics. It is characterized by high resistance in chemically aggressive environments, high fire resistance, high mechanical resistance to compression and bending. The study focuses on two types o…

Settore ING-IND/22 - Scienza E Tecnologia Dei MaterialiSettore ICAR/11 - Produzione EdiliziaDurability laminated composite panels basalt fibres mechanical performance
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Design Procedures for Soil-Lime Stabilization for Road and Railway Embankments. Part 2-Experimental Validation

2012

AbstractAs detailed in Part 1, the most common Italian Technical Specifications refer to different design methodologies for design of lime-soil mixtures, some being quite different from those internationally adopted. Therefore, it seemed appropriate to the Authors to compare these methodologies, via a wide experimental program.It is shown that the Italian methodology of the National Road Agency is different not only from those used in Italy, but also from the main international standards. The experimental results highlight that a revision of that methodology is needed in order to bring it into line with what is prescribed by the European standard.

Soil stabilizationbusiness.industrysoil stabilization lime mechanical performances laboratory testinLimeExperimental validationengineering.materialTechnical specificationsMechanical performancesCivil engineeringLaboratory testingLaboratory testingSoil stabilizationAgency (sociology)engineeringSettore ICAR/04 - Strade Ferrovie Ed AeroportiEuropean standardGeneral Materials SciencebusinessLimeProcedia - Social and Behavioral Sciences
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Basalt Fiber Hybridization Effects on High-Performance Sisal-Reinforced Biocomposites

2022

The increasing attention given to environmental protection, largely through specific regulations on environmental impact and the recycling of materials, has led to a considerable interest of researchers in biocomposites, materials consisting of bio-based or green polymer matrixes reinforced by natural fibers. Among the various reinforcing natural fibers, sisal fibers are particularly promising for their good mechanical properties, low specific weight and wide availability on the current market. As proven in literature by various authors, the hybridization of biocomposites by synthetical fibers or different natural fibers can lead to an interesting improvement of the mechanical properties or…

basaltSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchinebiocompositePolymers and PlasticsagingGeneral Chemistrysisalbiocomposites; natural fibers; sisal; basalt; aging; mechanical performancenatural fibermechanical performancePolymers
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