Unlike other construction materials, road materials have developed minimally over the past 100 years. However, since the 1970s, the focus has been on more sustainable road construction materials such as recycled asphalt pavements. Recycling asphalt involves removing old asphalt and mixing it with new (fresh) aggregates, binders, and/or rejuvenators. Similarly, there are various efforts to use alternative modifiers and technical solutions such as crumb rubber, plastics, or various types of fibres. For the past two decades, researchers have been developing novel materials and technologies, such as self-healing materials, in order to improve road design, construction, and maintenance efficiency and reduce the financial and environmental burden of road construction. This Special Issue on "Advances in Asphalt Pavement Technologies and Practices" curates advanced/novel work on asphalt pavement design, construction, and maintenance. The Special Issue comprises 19 papers describing unique works that address the current challenges that the asphalt industry and road owners face
Advances in Asphalt Pavement Technologies and Practices
2022
1 Online-Ressource (322 p.)
Book
Electronic Resource
Unknown
dynamic creep , pavement condition evaluation , History of engineering & technology , porosity , Trinidad lake asphalt , International Roughness Index , vibration , factor importance , resilient modulus , construction control , evaluation method , SBS modified asphalt , full-scale pavement structure , morphological properties , molecular dynamics , local correction coefficient , stress intensity factors , steel slag aggregate , Grouted Semi-flexible Pavement , asphalt pavements , comprehensive evaluation , low temperature performance , Google Earth , falling weight deflectometer (FWD) , additives , infrared spectroscopy , Saudi Arabia , bitumen , cold recycling , bituminous mixtures , influential factor , rutting prediction , performance , master curve , moisture , indirect tensile strength , n/a , J-integral , water sensitivity , rutting performance prediction model , emulsified asphalt , RSM , unbound granular material (UGM) , AFM , fibers , moisture sensitivity , coarse-grained , FTIR , long-term observation data , smartphone sensors , multiple aging and rejuvenation cycles , subbase layers , hot-mix recycled asphalt mixture , laboratory test , self-healing , cyclic triaxial test (CTT) , moisture damage , non-destructive testing , toposable set theory , high and low temperature performance , model accuracy evaluation , high-modulus asphalt mixture , Bayesian optimization , base layers , flexible pavement , management system , numerical analysis , asphalt pavement , induction heating , neural network , digital image correlation (DIC) , compaction quality control , crumb rubber asphalt (CR) , extended finite element method , warm mix asphalt , reflection crack , machine learning , Technology: general issues , cigarette filters , asphalt concrete , degree of compaction , bearing capacity , aged asphalt , artificial neural networks , hybrid self-healing system , porous asphalt mixture , characteristic parameter , prediction , pavement maintenance , random forest , pavement design , stiffness modulus , hot mix asphalt , recycled cigarette butts , pavement , reclaimed asphalt pavement , orthogonal experimental design , foamed asphalt , wheel tracking rutting resistance , asphalt mixture , orthogonal test , SMA , relaxation characteristics , correlation , DSR , interface cracking , force field
DDC: | 625.85 |
Advances in Asphalt Pavement Technologies and Practices
GWLB - Gottfried Wilhelm Leibniz Bibliothek | 2022
|Asphalt Concrete Pavement Construction Practices in Europe
British Library Online Contents | 1992
|