A Review of the Contribution of Mechanomutable Asphalt Materials Towards Addressing the Upcoming Challenges of Asphalt Pavements

Leiva-Padilla, Paulina; Moreno-Navarro, Fernando; Iglesias, Guillermo R.; Rubio-Gámez, M.C.

doi:10.3390/infrastructures5030023

Cited by 9 publications

(6 citation statements)

References 60 publications

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“… Eco-friendly; strain-sensing capabilities; temperature-sensing capabilities; pressure-sensing capabilities; economically feasible; improved response time Requires further development and field-testing; can have high initial costs [ 111 , [112] , [113] , [114] , [115] , [116] ] Self-Healing Asphalt Pavements Smart Pavements Many self-healing asphalt technologies try to restore and utilize asphalt's inherent self-healing behavior. Technologies include additives and nanoparticles, in-situ heating, and rejuvenation using encapsulation, hollow fibers, or vascular fibers Increased pavement lifetime; reduces lifecycle costs; reduces emissions related to maintenance Many of the technologies need further testing before ready for application [ 111 , [117] , [118] , [119] , [120] , [121] , [122] , [123] , [124] , [125] , [126] , [127] , [128] , [129] , [130] ] Self-Healing Concrete Pavements Smart Pavements The leading process of self-healing in concrete pavements is through the introduction of bacteria to create calcium carbonate, which can fill microcracks Increased pavement lifetime; reduces lifecycle costs; reduces emissions related to maintenance; and some have proven to improve concrete strength, durability, and resistance Less explored than self-healing in asphalt pavements; slow overall process; unknown biological health effects [ [131] , [132] , [133] , [134] , [135] ] Information Interaction Pavements Smart Pavements Integrated framework design systems for entire road...…”

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Innovations in pavement design and engineering: A 2023 sustainability review

Styer,

Tunstall,

Landis

et al. 2024

Heliyon

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Section: Resultsmentioning

confidence: 99%

“…Mechanomutable asphalt binders are a new pavement material that has a bituminous matrix with magnetically susceptible materials [ 127 ]. As shown in Fig.…”

Section: Resultsmentioning

confidence: 99%

Innovations in pavement design and engineering: A 2023 sustainability review

Styer,

Tunstall,

Landis

et al. 2024

Heliyon

View full text Add to dashboard Cite

“…In recent decades, autonomous driving has drawn huge attention from both academia and industry and great effort has been put into designing vehicles with the capability to self-navigate urban streets [64][65][66][67][68]. Nowadays, autonomous and autopilot vehicles are fleeting on the roads and they are expected to revolutionize the transportation system in an unprecedented manner.…”

Section: Definition Referencementioning

confidence: 99%

A Review on Vehicle Classification and Potential Use of Smart Vehicle-Assisted Techniques

Shokravi

Bakhary

et al. 2020

Sensors

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Vehicle classification (VC) is an underlying approach in an intelligent transportation system and is widely used in various applications like the monitoring of traffic flow, automated parking systems, and security enforcement. The existing VC methods generally have a local nature and can classify the vehicles if the target vehicle passes through fixed sensors, passes through the short-range coverage monitoring area, or a hybrid of these methods. Using global positioning system (GPS) can provide reliable global information regarding kinematic characteristics; however, the methods lack information about the physical parameter of vehicles. Furthermore, in the available studies, smartphone or portable GPS apparatuses are used as the source of the extraction vehicle’s kinematic characteristics, which are not dependable for the tracking and classification of vehicles in real time. To deal with the limitation of the available VC methods, potential global methods to identify physical and kinematic characteristics in real time states are investigated. Vehicular Ad Hoc Networks (VANETs) are networks of intelligent interconnected vehicles that can provide traffic parameters such as type, velocity, direction, and position of each vehicle in a real time manner. In this study, VANETs are introduced for VC and their capabilities, which can be used for the above purpose, are presented from the available literature. To the best of the authors’ knowledge, this is the first study that introduces VANETs for VC purposes. Finally, a comparison is conducted that shows that VANETs outperform the conventional techniques.

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“…In this respect, encoded asphalt materials are part of a recent solution for further assisting AV guidance, which consists of encoding part of the pavement structure by modifying asphalt mixtures with magnetically responsive materials [9,25,26]. This technique consists of producing certain magnetic field signals detectable by sensors installed in the vehicle.…”

Section: Automotive Manufactures and Information Technology Companiesmentioning

confidence: 99%

Interpretation of the Magnetic Field Signals Emitted by Encoded Asphalt Pavement Materials

et al. 2020

Self Cite

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Asphalt materials modified with different types and dosages of magnetically responsive materials can emit patterns of magnetic signals easily detectable by magnetic field sensors. These patterns could be used to encode roads and improve infrastructure-to-vehicle (I2V)/road-to-vehicle (R2V) communications. In this sense, this paper presents a laboratory study addressed to analyze the magnetic field signals emitted by encoded asphalt specimens manufactured with various dosages of steel fibers. The analysis consisted in the evaluation of the influence of three parameters: (1) the height of placement of the magnetic field sensors, (2) the approach speed of the encoded specimen/vehicle and (3) the distance from signal detection. Results show that, for each one of the parameters evaluated, there is a limit value below which it is possible to work with the magnetic signal emitted by the encoded samples. A proof of concept was used to validate the results obtained.

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A Review of the Contribution of Mechanomutable Asphalt Materials Towards Addressing the Upcoming Challenges of Asphalt Pavements

Cited by 9 publications

References 60 publications

Innovations in pavement design and engineering: A 2023 sustainability review

Innovations in pavement design and engineering: A 2023 sustainability review

A Review on Vehicle Classification and Potential Use of Smart Vehicle-Assisted Techniques

Interpretation of the Magnetic Field Signals Emitted by Encoded Asphalt Pavement Materials

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