Performance-Related Material Properties of Asphalt Mixture Components (Second Edition)

doi:10.3390/books978-3-7258-1991-1

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Performance-Related Material Properties of Asphalt Mixture Components (Second Edition)

Edited by

September 2024

256 pages

ISBN978-3-7258-1992-8 (Hardback)
ISBN978-3-7258-1991-1 (PDF)

https://doi.org/10.3390/books978-3-7258-1991-1

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This is a Reprint of the Special Issue Performance-Related Material Properties of Asphalt Mixture Components (Second Edition) that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

"Performance-Related Material Properties of Asphalt Mixture Components (Second Edition)" is a comprehensive compilation of 14 research papers that explore the latest advancements in pavement engineering. This Reprint focuses on the performance-related properties of asphalt mixtures and pavements, offering valuable insights into the factors that influence durability, resilience, and overall pavement quality.

The included studies cover a broad range of topics, such as the mechanical behavior of asphalt under different environmental conditions, the effects of innovative materials and modifiers, advanced modeling techniques, and the impact of recycling processes on pavement performance. Together, these papers provide a holistic view of the current state of pavement research, making this Reprint an essential resource for engineers, researchers, and professionals in the field.

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Hardback

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Keywords

coarse aggregate structure; DEM; mechanical properties; gradation optimization; interlocking force; contact force; actual pavement; skid resistance; coarse aggregate; morphological characteristics; attenuation characteristics; grey correlation entropy analysis; aggregate–asphalt adhesion; evaluation method; image processing techniques; aggregate characteristics; water boiling test; aging behavior; mechanism evolution; nanoalumina; SBS asphalt; thermal-oxidative aging; constitutive models; Viscoelastic–Viscoplastic coexistence mechanism; fractional calculus; asphalt mixtures; creep test; crosslinking modification of POE-g-GMA; asphalt; storage stability; physical properties; thermal oxidation aging resistance; basalt fibers; diameter; asphalt mastic; monofilament pullout test; asphalt mixture; waste polymers; bitumen modification; statistical modelling; rheological properties; hydraulic asphalt concrete; failure modes; strain rate effect; size effect; dynamic size effect law; PF-modified asphalt; viscoelastic properties; rheological characteristics; mixture; high-temperature stability; submerged subgrade; equivalent resilient modulus; constitutive model; finite element method; fluid–solid coupling; high RAP content; laboratory-accelerated aging test; hot in-place recycling asphalt mixtures; road performance; fatigue behavior; asphalt field cores; discrete element method (DEM); semi-circular bending (SCB) test; bitumen-free asphalt pavement; linear elastic modeling; viscoelastic modeling; relaxation characterization; polymeric resin pavement; mineral filler; long-term asphalt behavior

Performance-Related Material Properties of Asphalt Mixture Components (Second Edition)

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