Simplified methodology for fatigue analysis of reinforced asphalt systems

Fatigue analysis has an important role in evaluating the durability and performance of asphalt pavements, especially when novel or alternative materials are used. Numerous laboratory studies have investigated fatigue performance with the aim of estimating field behavior as accurately as feasible. Th...

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Veröffentlicht in:	Materials and structures 2024-03, Vol.57 (2), Article 34
Hauptverfasser:	Orešković, Marko, Bohuš, Štepan, Virgili, Amedeo, Canestrari, Francesco
Format:	Artikel
Sprache:	eng
Schlagworte:	Asphalt mixes Asphalt pavements Building Materials Civil Engineering Data analysis Engineering Fatigue life Fatigue strength Fatigue tests Geogrids Laboratory tests Machines Manufacturing Materials Science Original Article Processes Resistance factors Solid Mechanics Test methods Theoretical and Applied Mechanics
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description	Fatigue analysis has an important role in evaluating the durability and performance of asphalt pavements, especially when novel or alternative materials are used. Numerous laboratory studies have investigated fatigue performance with the aim of estimating field behavior as accurately as feasible. Therefore, there are currently many different test methods and data analysis approaches that can be used. One of the most common laboratory test methods is the four-point bending beam (4PBB) test, which results are usually analyzed using the so-called traditional (where 50% reduction in initial stiffness is considered as failure criterion) or the energy ratio (ER) approach. However, outcomes from previous studies have shown that these approaches may not be appropriate and reliable if geogrids are used as a reinforcement. As a possible solution, this study proposes a new simplified flex point (SFP) approach that considers the flex point of the strain amplitude curve, measured during 4PBB fatigue tests, to calculate the number of cycles to failure. These three approaches were applied to four double-layered asphalt sets: one unreinforced and three reinforced with geogrids of different strength (50 x 50, 100 x 100 and 100 x 200 kN/m). The impact of reinforcement on the fatigue life was evaluated by comparing the critical strain values (ε 6 ) of reinforced and unreinforced sets through the fatigue resistance improvement factor. The research findings showed that the use of geogrids improves fatigue life when the SFP and ER approaches are applied and that the traditional approach might not always be appropriate for assessing the fatigue resistance of reinforced asphalt mixtures.
doi_str_mv	10.1617/s11527-024-02305-1
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Numerous laboratory studies have investigated fatigue performance with the aim of estimating field behavior as accurately as feasible. Therefore, there are currently many different test methods and data analysis approaches that can be used. One of the most common laboratory test methods is the four-point bending beam (4PBB) test, which results are usually analyzed using the so-called traditional (where 50% reduction in initial stiffness is considered as failure criterion) or the energy ratio (ER) approach. However, outcomes from previous studies have shown that these approaches may not be appropriate and reliable if geogrids are used as a reinforcement. As a possible solution, this study proposes a new simplified flex point (SFP) approach that considers the flex point of the strain amplitude curve, measured during 4PBB fatigue tests, to calculate the number of cycles to failure. These three approaches were applied to four double-layered asphalt sets: one unreinforced and three reinforced with geogrids of different strength (50 x 50, 100 x 100 and 100 x 200 kN/m). The impact of reinforcement on the fatigue life was evaluated by comparing the critical strain values (ε 6 ) of reinforced and unreinforced sets through the fatigue resistance improvement factor. 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subjects	Asphalt mixes Asphalt pavements Building Materials Civil Engineering Data analysis Engineering Fatigue life Fatigue strength Fatigue tests Geogrids Laboratory tests Machines Manufacturing Materials Science Original Article Processes Resistance factors Solid Mechanics Test methods Theoretical and Applied Mechanics
title	Simplified methodology for fatigue analysis of reinforced asphalt systems
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