Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Asphalt Pavement Materials and Surface
Asphalt pavement, a key element in roads, bridges, and airports, faces durability issues mainly due to the mechanical weaknesses of asphalt materials and poor adhesion with aggregates. Advancing high-quality asphalt materials and understanding surface interactions are essential to improve pavement longevity. The evolution of asphalt materials and design over recent decades has reshaped our approach to pavement performance, necessitating new research methods to analyze material and surface behavior. Global research continues to innovate, focusing on developing new asphalt compositions and enhancing material and structural characterization. Technologies like artificial intelligence and big data have expanded research possibilities, posing challenges in integrating modern techniques into construction and maintenance practices. This Special Issue aims to cover a broad range of topics, including asphalt modification, aging, recycling, interface characterization between asphalt and aggregates, numerical modeling of these interfaces, in-depth analyses of surface adhesion and moisture damage, innovations in warm- and cold-mix asphalt, smart pavement materials and infrastructure, alongside monitoring, performance evaluation, and prediction techniques in pavement technology.
Asphalt Pavement Materials and Surface
Asphalt pavement, a key element in roads, bridges, and airports, faces durability issues mainly due to the mechanical weaknesses of asphalt materials and poor adhesion with aggregates. Advancing high-quality asphalt materials and understanding surface interactions are essential to improve pavement longevity. The evolution of asphalt materials and design over recent decades has reshaped our approach to pavement performance, necessitating new research methods to analyze material and surface behavior. Global research continues to innovate, focusing on developing new asphalt compositions and enhancing material and structural characterization. Technologies like artificial intelligence and big data have expanded research possibilities, posing challenges in integrating modern techniques into construction and maintenance practices. This Special Issue aims to cover a broad range of topics, including asphalt modification, aging, recycling, interface characterization between asphalt and aggregates, numerical modeling of these interfaces, in-depth analyses of surface adhesion and moisture damage, innovations in warm- and cold-mix asphalt, smart pavement materials and infrastructure, alongside monitoring, performance evaluation, and prediction techniques in pavement technology.
Asphalt Pavement Materials and Surface
14.05.2024
Sonstige
Elektronische Ressource
Englisch
warm mix asphalt , additive , molecular dynamics simulation , lubrication , mechanism , rubber-modified asphalt , waste plastic , polyethylene , molecular simulation , interaction mechanism , ground penetrating radar , asphalt concrete base , homogeneity assessment , dielectric constant , model , different steel slag content , SMA-13 asphalt mixture , pavement performance , optimal steel slag content , PU binder , curing reaction mechanism , PU mixture , properties , stacking time , curing time , low-mark high-modulus mixture , complex modulus of trapezoidal beam , uniaxial compression dynamic modulus , conversion model , instrumented pavement , wheel wander , strain gauge , offset , load position strain , reclaimed asphalt pavement , sustainability evaluation , Hot-Mix Asphalt Pavement , cold in-place recycling pavement , sustainable pavements , fuzzy VIKOR , gussasphalt , natural asphalt , thermal stability , engineering properties , microstructure , cement stabilized aggregates , lime-fly ash stabilized aggregates , fatigue , modulus degradation model , semi-flexible pavement
DDC:
624
ASPHALT PAVEMENT, ASPHALT PAVEMENT ROAD SURFACE STRUCTURE, AND ASPHALT PAVEMENT FORMING METHOD
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