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Geomechanics and Geoengineering
An International Journal
Volume 2, 2007 - Issue 2
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Original Articles

On the use of discrete element modelling to simulate the viscoelastic deformation behaviour of an idealized asphalt mixture

A. C. Collop Nottingham Centre for Pavement Engineering, University of Nottingham, University Park, Nottingham, NG7 2RD, UKCorrespondence[email protected]
,
G. R. McDowell Nottingham Centre for Geomechanics, University of Nottingham, University Park, Nottingham, NG7 2RD, UK
&
Y. Lee Nottingham Centre for Pavement Engineering, University of Nottingham, University Park, Nottingham, NG7 2RD, UK
Pages 77-86 | Received 15 Nov 2006, Published online: 05 Jun 2007

Citations (37)

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Read on this site (4)

Wei Cai, Glenn McDowell, Gordon Airey & John de Bono. (2016) Discrete element modelling of creep of asphalt mixtures. Geomechanics and Geoengineering 11:1, pages 64-72.
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Yu Liu, Zhanping You, Qingli Dai & Julian Mills-Beale. (2011) Review of advances in understanding impacts of mix composition characteristics on asphalt concrete (AC) mechanics. International Journal of Pavement Engineering 12:4, pages 385-405.
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Zhanping You & Yu Liu. (2010) Three-Dimensional Discrete Element Simulation of Asphalt Concrete Subjected to Haversine Loading. Road Materials and Pavement Design 11:2, pages 273-290.
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Junwei Wu, Andrew Collop & Glenn McDowell. (2009) Discrete Element Modelling of Monotonic Compression Tests in an Idealised Asphalt Mixture. Road Materials and Pavement Design 10:sup1, pages 211-232.
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Articles from other publishers (33)

Michael Mascara, Arno Mayrhofer, Stefan Radl & Christoph Kloss. (2024) Implementation and validation of a bonded particle model to predict rheological properties of viscoelastic materials. Particuology 89, pages 198-210.
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Haitao Ge, Juan Carlos Quezada, Vincent Le Houerou & Cyrille Chazallon. (2022) Multiscale analysis of tire and asphalt pavement interaction via coupling FEM–DEM simulation. Engineering Structures 256, pages 113925.
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Jiangtao Fan, Yingjun Jiang, Yong Yi, Tian Tian, Kejia Yuan & Changqing Deng. (2022) Investigation on triaxial numerical test method and dilatancy behavior of asphalt mixture. Construction and Building Materials 316, pages 125815.
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Peng Cao, Feng Jin, Zhou Changjun & Decheng Feng. (2017) Investigation on statistical characteristics of asphalt concrete dynamic moduli with random aggregate distribution model. Construction and Building Materials 148, pages 723-733.
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Valeria Vignali, Francesco Mazzotta, Cesare Sangiorgi, Andrea Simone, Claudio Lantieri & Giulio Dondi. (2016) Incorporation of Rubber Powder as Filler in a New Dry-Hybrid Technology: Rheological and 3D DEM Mastic Performances Evaluation. Materials 9:10, pages 842.
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Enad M. Mahmoud, Shadi M. Saadeh & Roberto R. Yanez. (2016) Feasibility of the Discrete Element Method to Simulate RAP Asphalt Mixtures’ Fracture Behavior. Feasibility of the Discrete Element Method to Simulate RAP Asphalt Mixtures’ Fracture Behavior.
F. Lavergne, K. Sab, J. Sanahuja, M. Bornert & C. Toulemonde. (2016) An approximate multiscale model for aging viscoelastic materials exhibiting time-dependent Poisson's ratio. Cement and Concrete Research 86, pages 42-54.
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G. R. McDowell & H. Li. (2016) Discrete element modelling of scaled railway ballast under triaxial conditions. Granular Matter 18:3.
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Wenke Huang, Xiaoning Zhang & Yingmei Yin. (2016) An Image-Based Finite Element Approach for Simulating Viscoelastic Response of Asphalt Mixture. Advances in Materials Science and Engineering 2016, pages 1-11.
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M. D. Nguyen, F. Froiio, B. Cambou, H. Di Benedetto & C. Sauzéat. 2016. 8th RILEM International Conference on Mechanisms of Cracking and Debonding in Pavements. 8th RILEM International Conference on Mechanisms of Cracking and Debonding in Pavements 39 45 .
Huan Feng, Matteo Pettinari & Henrik Stang. (2015) Study of normal and shear material properties for viscoelastic model of asphalt mixture by discrete element method. Construction and Building Materials 98, pages 366-375.
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V. Vignali, F. Mazzotta, C. Sangiorgi, A. Simone, C. Lantieri & G. Dondi. (2014) Rheological and 3D DEM characterization of potential rutting of cold bituminous mastics. Construction and Building Materials 73, pages 339-349.
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Johannes Wimmer, Johannes Schnepp & Stefanie Reese. (2014) Modelling and Simulation of Asphalt. PAMM 14:1, pages 249-250.
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Taesun YouRashid K. Abu Al-RubEyad A. MasadEmad KassemDallas N. Little. (2014) Three-Dimensional Microstructural Modeling Framework for Dense-Graded Asphalt Concrete Using a Coupled Viscoelastic, Viscoplastic, and Viscodamage Model. Journal of Materials in Civil Engineering 26:4, pages 607-621.
Crossref
Silvia CaroDaniel CastilloMauricio Sánchez-Silva. (2014) Methodology for Modeling the Uncertainty of Material Properties in Asphalt Pavements. Journal of Materials in Civil Engineering 26:3, pages 440-448.
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G. Dondi, V. Vignali, M. Pettinari, F. Mazzotta, A. Simone & C. Sangiorgi. (2014) Modeling the DSR complex shear modulus of asphalt binder using 3D discrete element approach. Construction and Building Materials 54, pages 236-246.
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W. Cai, G.R. McDowell & G.D. Airey. (2014) Discrete element visco-elastic modelling of a realistic graded asphalt mixture. Soils and Foundations 54:1, pages 12-22.
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W. Cai, G. R. McDowell & G. D. Airey. (2013) Discrete element modelling of uniaxial constant strain rate tests on asphalt mixtures. Granular Matter 15:2, pages 163-174.
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Taesun YouRashid K. Abu Al-RubEyad A. MasadDallas N. Little. (2013) Three-Dimensional Microstructural Modeling of Asphalt Concrete by Use of X-Ray Computed Tomography. Transportation Research Record: Journal of the Transportation Research Board 2373:1, pages 63-70.
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Huanan Yu & Shihui Shen. (2013) A micromechanical based three-dimensional DEM approach to characterize the complex modulus of asphalt mixtures. Construction and Building Materials 38, pages 1089-1096.
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Yu Liu, Zhanping You & Yang Zhao. (2012) Three-dimensional discrete element modeling of asphalt concrete: Size effects of elements. Construction and Building Materials 37, pages 775-782.
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Taesun You, Rashid K. Abu Al-Rub, Masoud K. Darabi, Eyad A. Masad & Dallas N. Little. (2012) Three-dimensional microstructural modeling of asphalt concrete using a unified viscoelastic–viscoplastic–viscodamage model. Construction and Building Materials 28:1, pages 531-548.
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Catherine O’Sullivan. (2011) Particle-Based Discrete Element Modeling: Geomechanics Perspective. International Journal of Geomechanics 11:6, pages 449-464.
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Yu LiuZhanping You. (2011) Accelerated Discrete-Element Modeling of Asphalt-Based Materials with the Frequency-Temperature Superposition Principle. Journal of Engineering Mechanics 137:5, pages 355-365.
Crossref
Yu LiuZhanping You. (2011) Discrete-Element Modeling: Impacts of Aggregate Sphericity, Orientation, and Angularity on Creep Stiffness of Idealized Asphalt Mixtures. Journal of Engineering Mechanics 137:4, pages 294-303.
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Qingli Dai. (2011) Two- and three-dimensional micromechanical viscoelastic finite element modeling of stone-based materials with X-ray computed tomography images. Construction and Building Materials 25:2, pages 1102-1114.
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Zhanping YouYu LiuQingli Dai. (2011) Three-Dimensional Microstructural-Based Discrete Element Viscoelastic Modeling of Creep Compliance Tests for Asphalt Mixtures. Journal of Materials in Civil Engineering 23:1, pages 79-87.
Crossref
Junwei WuAndrew C. CollopGlenn R. McDowell. (2011) Discrete Element Modeling of Constant Strain Rate Compression Tests on Idealized Asphalt Mixture. Journal of Materials in Civil Engineering 23:1, pages 2-11.
Crossref
Qingli Dai. (2010) Prediction of Dynamic Modulus and Phase Angle of Stone-Based Composites Using a Micromechanical Finite-Element Approach. Journal of Materials in Civil Engineering 22:6, pages 618-627.
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Yu LiuZhanping You. (2009) Visualization and Simulation of Asphalt Concrete with Randomly Generated Three-Dimensional Models. Journal of Computing in Civil Engineering 23:6, pages 340-347.
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Yu LiuQingli DaiZhanping You. (2009) Viscoelastic Model for Discrete Element Simulation of Asphalt Mixtures. Journal of Engineering Mechanics 135:4, pages 324-333.
Crossref
Yu Liu & Zhanping You. (2008) Speed Up Discrete Element Simulation of Asphalt Mixtures with User-Written C++ Codes. Speed Up Discrete Element Simulation of Asphalt Mixtures with User-Written C++ Codes.
Mei Lin, Yu Lei, Ping Li, Jun Shuai & Zhaoli Wang. (2022) Research on Rheological Properties of Recycled Asphalt Mortar Based on Discrete Element Method. SSRN Electronic Journal.
Crossref

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