Multiphysics based Analysis of Materials for Roads in Cold Regions to Prevent Ice Adhesion and Low-Temperature Crack Developments
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https://hdl.handle.net/10037/27842Date
2022-12-12Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Roads constitute a significant hazard if the effects of wintertime are not
handled well. After a heavy snowfall, the most dangerous factor is a slippery
surface due to ice adhesion with the asphalt pavement. The ice on roads
increases the risk of road accidents and, upon melting, contributes to the
formation of Low-Temperature Cracks (LTCs) and potholes. This research
explores the physical principle that could remove the ice from concrete
roads by investigating whether road ice is susceptible to self-separation
upon loading when the road surfaces in cold regions are coated with a
polymer-based material such as polyurethane. This study conducted an
experimental and numerical analysis of ice-polyurethane and ice-concrete
separation under tensile load and calculated the Von-Mises stresses on the
surfaces. Results revealed higher Von-Mises stresses on ice when the base
material is polyurethane compared to concrete, indicating ice is more prone
to self-separation when adhered to polyurethane than concrete. These
results are important for increasing the operational life of roads in cold
regions and reducing the number of road accidents. In addition,
polyurethane is a potential material for pre-emptive road measures, such as
repairing cracks before they become potholes.
Publisher
The International Society of MultiphysicsCitation
Andleeb, Khawaja, Moatamedi. Multiphysics based Analysis of Materials for Roads in Cold Regions to Prevent Ice Adhesion and Low-Temperature Crack Developments. The International Journal of Multiphysics. 2022Metadata
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