Experimental Investigation of Mechanical and Electromagnetic Performance of Asphalt Concrete Containing Different Ratios of Graphite Powder as a Filler to be Potentially Used as Part of Wireless Electric Roads

Kaya, Orhan; Merve Annagur, Hatice; Altintas, Olcay

doi:10.7250/2023-18.617

BJRBE

2023

DOI: 10.7250/2023-18.617

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Experimental Investigation of Mechanical and Electromagnetic Performance of Asphalt Concrete Containing Different Ratios of Graphite Powder as a Filler to be Potentially Used as Part of Wireless Electric Roads

Orhan Kaya,

Hatice Merve Annagur,

Olcay Altintas

Abstract: This study experimentally investigates the usability of asphalt concrete pavement containing five different ratios of graphite powder (0%, 1.25%, 2.5%, 3.75% and 5% by weight of the aggregate blend or 0%, 25%, 50%, 75% and 100% of the filler content) as a filler to be potentially used as part of wireless electric roads (ER). As part of the study, first, optimum asphalt binder content for the asphalt mixes without graphite powder was determined as 5%. Then, using the determined optimum asphalt binder content, a… Show more

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2024

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Recent Approaches to Modify the Interaction between Cement-based Materials and Electromagnetic Waves: Effectiveness of Functional Fillers and Structural Modifications

Hai,

Thuy,

Quang

et al. 2024

ACT

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This study aims to provide a review of how electromagnetic waves, primarily frequency bands in telecommunications networks, interact with cement-based materials and presents recent approaches, including the integration of functional fillers or structural components into the materials, to modify these interactions. Based on a dataset comprising experimental results from various previous studies, the study provides a comprehensive evaluation of the effectiveness of approaches on not only shielding capability but also the reflection and transmissivity of electromagnetic waves when interacting with cement-based materials, and the mechanisms behind these effects. The use of metal-and carbon-based fillers with high conductivity is a fundamental approach to increase the wave shielding of the material through dielectric losses. Conversely, approaches using materials with low electrical conductivity, such as quartz, rice husk ash, expanded polystyrene, or glass, can increase the transmissivity of waves. However, the effectiveness varies and depends on the type, shape, and the fraction of fillers, as well as the frequency of waves. Furthermore, structural modifications, such as increasing thickness, applying coating layers, using a multi-layered structure, or embedding a metal sheet into the material, are also effective ways to enhance absorption, leading to a reduction in the transmissivity of waves.

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Recent Approaches to Modify the Interaction between Cement-based Materials and Electromagnetic Waves: Effectiveness of Functional Fillers and Structural Modifications

Hai,

Thuy,

Quang

et al. 2024

ACT

View full text Add to dashboard Cite

show abstract

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Experimental Investigation of Mechanical and Electromagnetic Performance of Asphalt Concrete Containing Different Ratios of Graphite Powder as a Filler to be Potentially Used as Part of Wireless Electric Roads

Cited by 1 publication

References 50 publications

Recent Approaches to Modify the Interaction between Cement-based Materials and Electromagnetic Waves: Effectiveness of Functional Fillers and Structural Modifications

Recent Approaches to Modify the Interaction between Cement-based Materials and Electromagnetic Waves: Effectiveness of Functional Fillers and Structural Modifications

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