Durability Investigation of Ultra-Thin Polyurethane Wearing Course for Asphalt Pavement

Durability Investigation of Ultra-Thin Polyurethane Wearing Course for Asphalt Pavement

In this study, a wear-resistant ultra-thin wear layer was fabricated with polyurethane as an adhesive to investigate its durability for pavement applications. Its road performance was investigated based on indoor tests. First, the abrasion test was performed using a tire-pavement dynamic friction an...

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Bibliographic Details
Published in:Materials Vol. 17; no. 20; p. 4977
Main Authors: Wang, Wenguang, Liu, Baodong, Jin, Dongzhao, Yu, Miao, Zeng, Junsen
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 11-10-2024
MDPI
Subjects:
Abrasive wear
Accelerated aging tests
Accelerated tests
Aggregates
Aging
Asphalt pavements
Durability
Epoxy resins
Friction
Infrared analysis
Infrared spectrometers
Investigations
Lasers
Polynomials
Polyurethane resins
Pull out tests
Shear strength
skid resistance
Skidding
Spalling
Surface layers
Tensile strength
ultra-thin wear layer
Viscosity
Wear rate
Wear resistance
China
skid resistance
ultra-thin wear layer
durability
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Summary:In this study, a wear-resistant ultra-thin wear layer was fabricated with polyurethane as an adhesive to investigate its durability for pavement applications. Its road performance was investigated based on indoor tests. First, the abrasion test was performed using a tire-pavement dynamic friction analyzer (TDFA), and the surface elevation information of the wear layer was obtained by laser profile scanning. The relationship between the anti-skid properties of the wear layer and the macro-texture was analyzed. Second, a Fourier infrared spectrometer and scanning electron microscope were employed to analyze the evolution of polyurethane aging properties in the pull-out test and accelerated ultraviolet (UV) aging test. The results showed that the mean profile depth (MPD), arithmetic mean wavelength of contour (λa), surface wear index (SBI), stage mass loss rate (σ), and total stage mass loss rate (ω) of the abrasive layer aggregate had significant multivariate quadratic polynomial relationships with the skidding performance of the abrasive layer. The tensile strength of the polyurethane ultra-thin abrasive layer decreased by only 2.59% after 16 days of UV aging, indicating a minimal effect of UV action on the aggregate and structural spalling of the polyurethane abrasive layer.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma17204977