A dissipated energy comparison to evaluate fatigue resistance using 2-point bending

A dissipated energy comparison to evaluate fatigue resistance using 2-point bending

Fatigue is the main failure mode in pavement engineering. Typically, micro-cracks originate at the bottom of asphalt concrete layer due to horizontal tensile strains. Micro-cracks start to propagate towards the upper layers under repeated loading which can lead to pavement failure. Different methods...

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Bibliographic Details
Main Authors: Cinzia Maggiore, Gordon Airey, Paul Marsac
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2014-02-01
Series:Journal of Traffic and Transportation Engineering (English ed. Online)
Subjects:
fatigue resistance
dissipated energy
2-point bending
fracture mechanics approach
Online Access:http://www.sciencedirect.com/science/article/pii/S209575641530088X
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spelling doaj-8ef624a43a064227bb64269897217b802021-02-02T01:12:54ZengKeAi Communications Co., Ltd.Journal of Traffic and Transportation Engineering (English ed. Online)2095-75642014-02-0111495410.1016/S2095-7564(15)30088-XA dissipated energy comparison to evaluate fatigue resistance using 2-point bendingCinzia Maggiore0Gordon Airey1Paul Marsac2NTEC, University of Nottingham, Nottingham, United KingdomNTEC, University of Nottingham, Nottingham, United KingdomIFSTTAR, Nantes, FranceFatigue is the main failure mode in pavement engineering. Typically, micro-cracks originate at the bottom of asphalt concrete layer due to horizontal tensile strains. Micro-cracks start to propagate towards the upper layers under repeated loading which can lead to pavement failure. Different methods are usually used to describe fatigue behavior in asphalt materials such as: phenomenological approach, fracture mechanics approach and dissipated energy approach. This paper presents a comparison of fatigue resistances calculated for different dissipated energy models using 2-point bending (2PB) at IFSTTAR in Nantes. 2PB tests have been undertaken under different loading and environmental conditions in order to evaluate the properties of the mixtures (stiffness, dissipated energy, fatigue life and healing effect).http://www.sciencedirect.com/science/article/pii/S209575641530088Xfatigue resistancedissipated energy2-point bendingfracture mechanics approach
collection DOAJ
language English
format Article
sources DOAJ
author Cinzia Maggiore
Gordon Airey
Paul Marsac
spellingShingle Cinzia Maggiore
Gordon Airey
Paul Marsac
A dissipated energy comparison to evaluate fatigue resistance using 2-point bending
Journal of Traffic and Transportation Engineering (English ed. Online)
fatigue resistance
dissipated energy
2-point bending
fracture mechanics approach
author_facet Cinzia Maggiore
Gordon Airey
Paul Marsac
author_sort Cinzia Maggiore
title A dissipated energy comparison to evaluate fatigue resistance using 2-point bending
title_short A dissipated energy comparison to evaluate fatigue resistance using 2-point bending
title_full A dissipated energy comparison to evaluate fatigue resistance using 2-point bending
title_fullStr A dissipated energy comparison to evaluate fatigue resistance using 2-point bending
title_full_unstemmed A dissipated energy comparison to evaluate fatigue resistance using 2-point bending
title_sort dissipated energy comparison to evaluate fatigue resistance using 2-point bending
publisher KeAi Communications Co., Ltd.
series Journal of Traffic and Transportation Engineering (English ed. Online)
issn 2095-7564
publishDate 2014-02-01
description Fatigue is the main failure mode in pavement engineering. Typically, micro-cracks originate at the bottom of asphalt concrete layer due to horizontal tensile strains. Micro-cracks start to propagate towards the upper layers under repeated loading which can lead to pavement failure. Different methods are usually used to describe fatigue behavior in asphalt materials such as: phenomenological approach, fracture mechanics approach and dissipated energy approach. This paper presents a comparison of fatigue resistances calculated for different dissipated energy models using 2-point bending (2PB) at IFSTTAR in Nantes. 2PB tests have been undertaken under different loading and environmental conditions in order to evaluate the properties of the mixtures (stiffness, dissipated energy, fatigue life and healing effect).
topic fatigue resistance
dissipated energy
2-point bending
fracture mechanics approach
url http://www.sciencedirect.com/science/article/pii/S209575641530088X
work_keys_str_mv AT cinziamaggiore adissipatedenergycomparisontoevaluatefatigueresistanceusing2pointbending
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AT paulmarsac adissipatedenergycomparisontoevaluatefatigueresistanceusing2pointbending
AT cinziamaggiore dissipatedenergycomparisontoevaluatefatigueresistanceusing2pointbending
AT gordonairey dissipatedenergycomparisontoevaluatefatigueresistanceusing2pointbending
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