Paulina Leiva-Padilla scite author profile

Paulina Leiva-Padilla

5Publications

8Citation Statements Received

72Citation Statements Given

How they've been cited

How they cite others

137

Affiliations

Université Gustave Eiffel, University of Granada, Universidad de Costa Rica

Publications

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Analysis of the mechanical response of asphalt materials manufactured with metallic fibres under the effect of magnetic fields

Leiva-Padilla

Moreno-Navarro

Iglesias

et al. 2019

Smart Mater. Struct.

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Mechanomutable asphalt materials (MAMs) are being developed as a key contribution towards the evolution of smart roads. MAMs are composed ofa matrix of asphalt materials modified with metallicfibres that can be activated with magnetic fields. By controlling the physical domain of the magnetic fields, it is possibleto manage the mechanical performance of MAMs, and consequently transform thepavement into a smart structure that is capable of reacting efficientlyto the requirements of traffic and weather. This paper describes the results obtained from a study conducted using aresonance frequency test to evaluate the mechanical performance of the dynamicmodulus of various sizes of specimens of MAM mortars under the activation of variousintensities of magnetic field. MAM mortars containing two different quantities of metallic fibreswere used to manufacture specimens of two differentsizes that wereevaluated under various temperatures. The findings indicate that thedynamic modulus of the MAMs is affected by both the intensity of the magneticfield applied and the fibre content, but not by the size of the specimen, therefore, just the two first aforementioned variables should be considered in the design of MAMs for the construction of smart roads.

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

et al. 2020

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In the coming years, asphalt materials will face significant challenges due to the demand for smart multifunctional materials in transportation infrastructures, designed under sustainability criteria. Asphalt pavements will not only have to contribute towards the provision of an adequate surface for the transportation of different types of vehicles, but will need to do so considering the increased loads that they will have to support, as well as the extreme weather conditions resulting from climate change. These pavements will also need the capacity to interact with autonomous vehicles and provide information to the users and maintenance agencies regarding traffic data or performance levels. This paper describes how mechanomutable asphalt materials (MAMs) could enhance the properties of asphalt materials, enabling their use as a solution for smart infrastructures.

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Recovery capacity of electroconductive asphalt mortars under the influence of magnetic fields

Leiva-Padilla

Moreno-Navarro

Iglesias

et al. 2020

Materials Today Communications

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The impact of platooning action on asphalt pavement: Monitoring on site

Leiva-Padilla¹,

Hammoum²,

Blanc³

et al. 2022

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The impact of truck platooning action on asphalt pavement: a parametric study

Leiva-Padilla

Blanc

Hammoum

et al. 2022

International Journal of Pavement Engineering

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