Abstract
Pavement performance models play a vital role in any pavement management system. The Regional Government of Biscay (RGB) (Spain) manages a 1200 km road network and conducts pavement data collections, including the International Roughness Index (IRI) values. The aim of the paper is to develop an IRI performance model for two-lane roads with flexible pavement until the first maintenance and/or rehabilitation activity is performed. Due to the huge amount of available information, a deterministic model was selected. A literature review of deterministic models showed that, apart from age and traffic volumes, the pavement structure is a key factor. Therefore, it was decided to analyze the only road stretches whose entire pavement section was known (surface layer + base + subbase). Various variables related to age, traffic volumes and employed materials were introduced as possible factors. The multiple linear regression model with the highest coefficient of determination and all the variables significant included the real pavement age, the cumulated heavy traffic and the total thickness of bituminous layers. As the material employed in the surface layer could affect roughness progression, a qualitative variable was introduced to consider various surface materials. The model improved its accuracy, indicating that the surface layer material is also an influencing factor on IRI evolution.
Highlights
Road pavement structure consists of various layers with different materials, and they are normally referred to, from top to bottom, as a surface layer, base, and subbase, built over a compacted subgrade
International Roughness Index (IRI) performance model for two-lane roads with flexible pavements, since roads are opened to traffic until they are maintained or rehabilitated for the first time
A deterministic model is preferable when a large amount of data is available in a complete database, and the contribution of each factor is wanted to be known; Age is a vital factor in IRI progression, and this value must be introduced in the model as precise as possible
Summary
Road pavement structure consists of various layers with different materials, and they are normally referred to, from top to bottom, as a surface layer, base, and subbase (the bottom one may be omitted, and seldom the bottom two layers are omitted), built over a compacted subgrade. There are two main types of pavement surfaces: Portland cement concrete (PCC) and hot-mix asphalt (HMA), known as asphalt concrete. These two materials classify the pavements in the two main categories: Pavements with PCC are called rigid pavements, and when there is an asphalt mixture layer in the top, they are referred to as flexible pavements. Apart from the different material in the wearing course, the load transmission mechanisms developed by each pavement type to achieve the load distribution requirement are completely different. In the case of flexible pavements, the base course is Coatings 2020, 10, 97; doi:10.3390/coatings10020097 www.mdpi.com/journal/coatings. The load is distributed over a larger area
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