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 l...
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MDPI - Multidisciplinary Digital Publishing Institute
2024
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| Rochtain ar líne: | ONIX_20240514_9783725807499_430 |
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Níl clibeanna ann, Bí ar an gcéad duine le clib a chur leis an taifead seo!
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| collection | Directory of Open Access Books |
| description | 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. |
| format | Online |
| id | doab-20.500.12854ir-137834 |
| institution | Directory of Open Access Books |
| language | eng |
| publishDate | 2024 |
| publishDateRange | 2024 |
| publishDateSort | 2024 |
| publisher | MDPI - Multidisciplinary Digital Publishing Institute |
| publisherStr | MDPI - Multidisciplinary Digital Publishing Institute |
| record_format | ojs |
| spelling | doab-20.500.12854ir-1378342024-05-14T14:39:04Z Asphalt Pavement Materials and Surface Chen, Leilei Liang, Ming Niu, Dongyu Ren, Shisong Jing, Ruxin 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 Marshall stability dynamic modulus four-point beam fatigue test Hamburg wheel tracking MMLS3 low-grade asphalt high-modulus asphalt mixture road performance road engineering application cement concrete bridge deck pavement waterproof bonding layer impermeability nondestructive testing construction quality evaluation system dielectric constant–porosity prediction model average of local dielectric constants proportion of local severe segregation polyurethane mixture shear strength energy consumption carbon emission road engineering ultra-thin overlays micro carbon fiber modified asphalt red mud waste subgrade modification tire–pavement contact tri-axial stress sensor array sensing element stress distribution alpine regions crumb rubber modified asphalt TOR temperature susceptibility microscopic mechanism analysis geogrid reinforcement asphalt direct shear strength oblique shear strength graphene quantum dots (GQDs) GQDs/SBS composite-modified asphalt pavement performances rheology phase change material physical property rheological property aging direct interaction cold recycling mixture using emulsified asphalt fine aggregate macro and micro properties surface morphologies air voids distribution high altitude area low temperature performance frequent freeze–thaw cycles crack resistance silt stabilized silt sintered red mud-asphalt composite flexible curing agent mechanical properties steel slag semi-rigid base performance evaluation numerical simulation environmental impacts aged asphalt waste engine oil physical properties molecular model pavement structure analytic hierarchy process gray relational theory Abaqus decision solid waste high proportion reuse plant-mixed cold recycling technology benefits analysis laboratory evaluation Hot Mix Asphalt (HMA) aggregate gradation Marshall test rutting water effect embedded sensing elements asphalt pavement mechanical response high-modulus asphalt SBS rock asphalt high- and low-temperature performance creep performance performance verification nano-montmorillonite carbon black SBS-modified asphalt ultraviolet aging pavement health monitoring CNT/EP composites embedded strain sensor encapsulation asphalt mixture high altitude and cold regions large temperature differences fracture TSRST flexural strength fracture toughness thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues 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. 2024-05-14T14:38:49Z 2024-05-14T14:38:49Z 2024 book ONIX_20240514_9783725807499_430 9783725807499 9783725807505 https://directory.doabooks.org/handle/20.500.12854/137834 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/9072 https://mdpi.com/books/pdfview/book/9072 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-0750-5 10.3390/books978-3-7258-0750-5 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725807499 9783725807505 566 open access |
| spellingShingle | 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 Marshall stability dynamic modulus four-point beam fatigue test Hamburg wheel tracking MMLS3 low-grade asphalt high-modulus asphalt mixture road performance road engineering application cement concrete bridge deck pavement waterproof bonding layer impermeability nondestructive testing construction quality evaluation system dielectric constant–porosity prediction model average of local dielectric constants proportion of local severe segregation polyurethane mixture shear strength energy consumption carbon emission road engineering ultra-thin overlays micro carbon fiber modified asphalt red mud waste subgrade modification tire–pavement contact tri-axial stress sensor array sensing element stress distribution alpine regions crumb rubber modified asphalt TOR temperature susceptibility microscopic mechanism analysis geogrid reinforcement asphalt direct shear strength oblique shear strength graphene quantum dots (GQDs) GQDs/SBS composite-modified asphalt pavement performances rheology phase change material physical property rheological property aging direct interaction cold recycling mixture using emulsified asphalt fine aggregate macro and micro properties surface morphologies air voids distribution high altitude area low temperature performance frequent freeze–thaw cycles crack resistance silt stabilized silt sintered red mud-asphalt composite flexible curing agent mechanical properties steel slag semi-rigid base performance evaluation numerical simulation environmental impacts aged asphalt waste engine oil physical properties molecular model pavement structure analytic hierarchy process gray relational theory Abaqus decision solid waste high proportion reuse plant-mixed cold recycling technology benefits analysis laboratory evaluation Hot Mix Asphalt (HMA) aggregate gradation Marshall test rutting water effect embedded sensing elements asphalt pavement mechanical response high-modulus asphalt SBS rock asphalt high- and low-temperature performance creep performance performance verification nano-montmorillonite carbon black SBS-modified asphalt ultraviolet aging pavement health monitoring CNT/EP composites embedded strain sensor encapsulation asphalt mixture high altitude and cold regions large temperature differences fracture TSRST flexural strength fracture toughness thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues Asphalt Pavement Materials and Surface |
| title | Asphalt Pavement Materials and Surface |
| title_full | Asphalt Pavement Materials and Surface |
| title_fullStr | Asphalt Pavement Materials and Surface |
| title_full_unstemmed | Asphalt Pavement Materials and Surface |
| title_short | Asphalt Pavement Materials and Surface |
| title_sort | asphalt pavement materials and surface |
| topic | 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 Marshall stability dynamic modulus four-point beam fatigue test Hamburg wheel tracking MMLS3 low-grade asphalt high-modulus asphalt mixture road performance road engineering application cement concrete bridge deck pavement waterproof bonding layer impermeability nondestructive testing construction quality evaluation system dielectric constant–porosity prediction model average of local dielectric constants proportion of local severe segregation polyurethane mixture shear strength energy consumption carbon emission road engineering ultra-thin overlays micro carbon fiber modified asphalt red mud waste subgrade modification tire–pavement contact tri-axial stress sensor array sensing element stress distribution alpine regions crumb rubber modified asphalt TOR temperature susceptibility microscopic mechanism analysis geogrid reinforcement asphalt direct shear strength oblique shear strength graphene quantum dots (GQDs) GQDs/SBS composite-modified asphalt pavement performances rheology phase change material physical property rheological property aging direct interaction cold recycling mixture using emulsified asphalt fine aggregate macro and micro properties surface morphologies air voids distribution high altitude area low temperature performance frequent freeze–thaw cycles crack resistance silt stabilized silt sintered red mud-asphalt composite flexible curing agent mechanical properties steel slag semi-rigid base performance evaluation numerical simulation environmental impacts aged asphalt waste engine oil physical properties molecular model pavement structure analytic hierarchy process gray relational theory Abaqus decision solid waste high proportion reuse plant-mixed cold recycling technology benefits analysis laboratory evaluation Hot Mix Asphalt (HMA) aggregate gradation Marshall test rutting water effect embedded sensing elements asphalt pavement mechanical response high-modulus asphalt SBS rock asphalt high- and low-temperature performance creep performance performance verification nano-montmorillonite carbon black SBS-modified asphalt ultraviolet aging pavement health monitoring CNT/EP composites embedded strain sensor encapsulation asphalt mixture high altitude and cold regions large temperature differences fracture TSRST flexural strength fracture toughness thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues |
| topic_facet | 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 Marshall stability dynamic modulus four-point beam fatigue test Hamburg wheel tracking MMLS3 low-grade asphalt high-modulus asphalt mixture road performance road engineering application cement concrete bridge deck pavement waterproof bonding layer impermeability nondestructive testing construction quality evaluation system dielectric constant–porosity prediction model average of local dielectric constants proportion of local severe segregation polyurethane mixture shear strength energy consumption carbon emission road engineering ultra-thin overlays micro carbon fiber modified asphalt red mud waste subgrade modification tire–pavement contact tri-axial stress sensor array sensing element stress distribution alpine regions crumb rubber modified asphalt TOR temperature susceptibility microscopic mechanism analysis geogrid reinforcement asphalt direct shear strength oblique shear strength graphene quantum dots (GQDs) GQDs/SBS composite-modified asphalt pavement performances rheology phase change material physical property rheological property aging direct interaction cold recycling mixture using emulsified asphalt fine aggregate macro and micro properties surface morphologies air voids distribution high altitude area low temperature performance frequent freeze–thaw cycles crack resistance silt stabilized silt sintered red mud-asphalt composite flexible curing agent mechanical properties steel slag semi-rigid base performance evaluation numerical simulation environmental impacts aged asphalt waste engine oil physical properties molecular model pavement structure analytic hierarchy process gray relational theory Abaqus decision solid waste high proportion reuse plant-mixed cold recycling technology benefits analysis laboratory evaluation Hot Mix Asphalt (HMA) aggregate gradation Marshall test rutting water effect embedded sensing elements asphalt pavement mechanical response high-modulus asphalt SBS rock asphalt high- and low-temperature performance creep performance performance verification nano-montmorillonite carbon black SBS-modified asphalt ultraviolet aging pavement health monitoring CNT/EP composites embedded strain sensor encapsulation asphalt mixture high altitude and cold regions large temperature differences fracture TSRST flexural strength fracture toughness thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues |
| url | ONIX_20240514_9783725807499_430 |