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International Journal of Pavement Engineering Volume 18, 2017 - Issue 11
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Articles

Fatigue life and endurance limit prediction of asphalt mixtures using energy-based failure criterion

Amirhossein NorouziPavement Services Incorporation, Portland, OR, USACorrespondence[email protected]
,
Mohammadreza SabouriBraun Intertec Incorporation, Minneapolis, MN, USA
&
Y. Richard KimDepartment of Civil, Construction, & Environmental Engineering, North Carolina State University, Raleigh, NC, USAORCID Iconhttp://orcid.org/0000-0003-3295-977X
ORCID Icon
Pages 990-1003 | Received 13 Dec 2015, Accepted 02 Jan 2016, Published online: 16 Feb 2016

Citations (19)

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Read on this site (2)

Nura Bala & Madzlan Napiah. (2020) Fatigue life and rutting performance modelling of nanosilica/polymer composite modified asphalt mixtures using Weibull distribution. International Journal of Pavement Engineering 21:4, pages 497-506.
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Wei Cao, Louay N. Mohammad & Mostafa Elseifi. (2017) Assessing the effects of RAP, RAS, and warm-mix technologies on fatigue performance of asphalt mixtures and pavements using viscoelastic continuum damage approach. Road Materials and Pavement Design 18:sup4, pages 353-371.
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Articles from other publishers (17)

Hui Li, Xue Luo, Yuqing Zhang & Zhen Leng. (2023) Viscoelastic fracture mechanics-based fatigue life model in asphalt-filler composite system. Engineering Fracture Mechanics 292, pages 109589.
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Nahid Amini, Parham Hayati & Hassan Latifi. (2022) Evaluation of Rutting and Fatigue Behavior of Modified Asphalt Binders with Nanocomposite Phase Change Materials. International Journal of Pavement Research and Technology 16:3, pages 678-692.
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Mohammed Alamri & Qing Lu. (2022) Investigation on the inclusion of reclaimed diluted epoxy asphalt pavement materials into hot mix asphalt. Construction and Building Materials 361, pages 129710.
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Mohammadreza Seif & Mohammad Molayem. (2022) Estimation of Fatigue Life of Asphalt Mixtures in Terms of Fatigue Life of Asphalt Binders Using the Rate of Dissipated Energy Change Approach. Journal of Materials in Civil Engineering 34:8.
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Guihong Guo, Hongren Gong, Lin Cong & Fan Yang. (2022) Laboratory investigation on the cracking performance of paving polyurethane mixture using semi-circular bending test. Construction and Building Materials 341, pages 127795.
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Andrise Klug, Andressa Ng & Adalberto Faxina. (2022) Application of the Viscoelastic Continuum Damage Theory to Study the Fatigue Performance of Asphalt Mixtures—A Literature Review. Sustainability 14:9, pages 4973.
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M. A. Dalhat & H. I. Al-Abdul Wahhab. (2020) Temperature Wave Fatigue Damage and Dissipated Energy Approach to Flow Number Estimation of Asphalt Concrete. Journal of Testing and Evaluation 48:5, pages 20170752.
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Chaochao LiuSongtao LvXinghai PengJianlong ZhengMiao Yu. (2020) Analysis and Comparison of Different Impacts of Aging and Loading Frequency on Fatigue Characterization of Asphalt Concrete. Journal of Materials in Civil Engineering 32:9.
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Mohammadreza Sabouri. (2020) An investigation on perpetual asphalt pavements in Minnesota. International Journal of Pavement Research and Technology 13:3, pages 247-254.
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Meng Ling, Yao Zhang, Fawaz Kaseer, Amy Epps Martin & Robert L. Lytton. (2020) Investigation of fracture behavior of asphalt mixture composite using energy-based approach. Composites Part B: Engineering 181, pages 107324.
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Taher M. AhmedHussain Al-KhalidThamer Y. Ahmed. (2019) Review of Techniques, Approaches and Criteria of Hot-Mix Asphalt Fatigue. Journal of Materials in Civil Engineering 31:12.
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Md Mehedi Hasan, Mohiuddin AhmadMd Amanul HasanHasan M. FaisalRafiqul A. Tarefder. (2019) Laboratory Performance Evaluation of Fine and Coarse-Graded Asphalt Concrete Mix. Journal of Materials in Civil Engineering 31:11.
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Wei Cao & Chao Wang. (2019) Fatigue performance characterization and prediction of asphalt binders using the linear amplitude sweep based viscoelastic continuum damage approach. International Journal of Fatigue 119, pages 112-125.
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Mohammadreza Sabouri, Danial Mirzaiyan & Ali Moniri. (2018) Effectiveness of Linear Amplitude Sweep (LAS) asphalt binder test in predicting asphalt mixtures fatigue performance. Construction and Building Materials 171, pages 281-290.
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Amirhossein NorouziY. Richard KimS. Sonny KimJidong Yang. (2017) Effect of Reclaimed Asphalt Pavement Content and Binder Grade on Fatigue-Resisting Performance of Asphalt Mixtures in Georgia. Journal of Materials in Civil Engineering 29:9.
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Behrooz Keshavarzi & Y. Richard Kim. (2016) A viscoelastic-based model for predicting the strength of asphalt concrete in direct tension. Construction and Building Materials 122, pages 721-727.
Crossref
Guihong Guo, Hongren Gong, Lin Cong & Fan Yang. (2022) Laboratory Investigation on the Cracking Performance of Paving Polyurethane Mixture Using Semi-Circular Bending Test. SSRN Electronic Journal.
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