Achievements and Prospects of Functional Pavement

doi:10.3390/books978-3-0365-5541-6

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Achievements and Prospects of Functional Pavement

Materials and Structures

Edited by

October 2022

334 pages

ISBN978-3-0365-5542-3 (Hardback)
ISBN978-3-0365-5541-6 (PDF)

https://doi.org/10.3390/books978-3-0365-5541-6

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This book is a reprint of the Special Issue Achievements and Prospects of Functional Pavement: Materials and Structures that was published in

Biology & Life Sciences

Chemistry & Materials Science

Computer Science & Mathematics

Engineering

Environmental & Earth Sciences

Physical Sciences

Summary

In order to further promote the development of functional pavement technology, a Special Issue entitled “Achievements and Prospects of Functional Pavement” has been proposed by a group of guest editors. To achieve this objective, the articles included in this Special Issue are related to different aspects of functional pavements, including green roads to decrease carbon emissions, noise, and pollution, safety pavements to increase skid resistance through water drainage and snow removal, intelligent roads for monitoring, power generation, temperature control and management, and durable roads to increase service life with new theories, new design methods, and prediction models, as highlighted in this editorial.

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Hardback

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Keywords

oyster shell powder; calcite filler; asphalt mastics; rutting; fatigue cracking; thermal stability; glass transition temperature; modified asphalt; fatigue resistance; MSCR; intermediate temperature; cement-treated aggregate base; fatigue equation; loading rates; true stress ratio; flexural strength; algorithm; aggregates; reconstitution; image processing; virtual modelling; asphalt pavements; top-down cracking mechanism; shear damage; tension propagation; modified asphalt; rock asphalt; creep test; thermal crack; viscoelastic model; oil shale waste; silane coupling agent; replace fine aggregate; response surface methodology; central composite design; bio-char; asphalt; modified asphalt; microscopic morphology; rheological properties; anti-aging properties; non-Newtonian behavior; viscosity; bitumen; crumb rubber modifier (CRM); warm mix asphalt; asphalt mixture; PAN fiber; fatigue performance; fatigue model; loading condition; intermediate principle stress; compressive strength; true-triaxial; asphalt mixtures; cement stabilized macadam; gradation; cement content; preparation technique; emulsified asphalt; nano-TiO₂; photocatalytic coating; degradation of exhaust gas; road engineering; crack resistance; fatigue crack propagation test; reliability; rubber asphalt stress absorption layer (RASAL); high viscous asphalt sand stress absorption layer (HVASAL); asphalt overlay; road engineering; concrete pavement; textural characteristics; noise; correlation analysis; asphalt mortar; ageing; FTIR; stiffness; strength; Induction heating; pavement compaction; porous asphalt mixes; computational tools; HMAC; dynamic response; moving load; temperature field; rutting resistance; the permanent deformation; asphalt; rejuvenation; alginate; capsules; rock asphalt; diatomite; rheological characteristics; high temperature performance; fatigue performance; low temperature performance; red clay; additive; resilient modulus; prediction models; new comprehensive prediction model; functional pavement; green road; safety pavement; intelligent road; durable road; pavement materials; asphalt pavements