https://orcid.org/0000-0003-3295-977X
Citations (57)
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Haichuan Jia, Yanping Sheng, Huaxin Chen, Ping Guo, Qingwei Ma, Yan Li & Rui Xiong. (2023) Effect of long-term aging on the fatigue properties of aramid fibres reinforced asphalt mixture. International Journal of Pavement Engineering 24:1.
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Silvio Lisboa Schuster, Pedro Orlando Borges de Almeida Júnior, Cléber Faccin, Lucas Dotto Bueno, Bruno de Souza Chaves, Pablo Menezes Vestena, Luciano Pivoto Specht & Deividi da Silva Pereira. (2023) Construction quality impact in asphalt pavements cost: a framework based on air voids, linear viscoelastic and fatigue behaviour. International Journal of Pavement Engineering 24:1.
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Runhua Zhang, Eshan V. Dave, Jo E. Sias, Hassan A. Tabatabaee, Tony Sylvester & Zheng Wang. (2023) Evaluation of the state of practice asphalt binder and mixture tests for assessing the compatibility of complex asphalt materials. Road Materials and Pavement Design 24:sup1, pages 451-470.
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Sara Spadoni, Lorenzo Paolo Ingrassia, Piotr Jaskuła & Francesco Canestrari. (2023) Advanced fatigue and rutting characterisation of Polish asphalt mixtures based on the VECD model and viscoplastic shift model. Road Materials and Pavement Design 24:sup1, pages 145-159.
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Huailei Cheng, Lijun Sun, Yuhong Wang & Xingyu Chen. (2023) Analysis of fatigue behaviors of asphalt mixture under actual loading waveforms using pseudo-strain-based approaches. International Journal of Pavement Engineering 24:2.
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Lorenzo Paolo Ingrassia & Francesco Canestrari. (2022) VECD analysis to investigate the performance of long-term aged bio-asphalt mixtures compared to conventional asphalt mixtures. Road Materials and Pavement Design 23:12, pages 2697-2712.
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Yizhuang David Wang, Amir Ghanbari, Benjamin Shane Underwood & Youngsoo Richard Kim. (2022) Development of framework of the predictive performance-engineered mix design procedure for asphalt mixtures. International Journal of Pavement Engineering 23:12, pages 4190-4205.
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Runhua Zhang, Jo E. Sias & Eshan V. Dave. (2022) Development of new performance indices to evaluate the fatigue properties of asphalt binders with ageing. Road Materials and Pavement Design 23:2, pages 377-396.
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Yizhuang David Wang, Benjamin Shane Underwood & Youngsoo Richard Kim. (2022) Development of a fatigue index parameter, S, for asphalt mixes using viscoelastic continuum damage theory. International Journal of Pavement Engineering 23:2, pages 438-452.
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Adam Zofka, Krzysztof Błażejowski & Przemyslaw Ostrowski. (2021) Fatigue performance of asphalt pavements with highly polymer-modified asphalt binders. Road Materials and Pavement Design 22:sup1, pages S269-S286.
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Reyhaneh Rahbar-Rastegar, Runhua Zhang, Jo E. Sias & Eshan V. Dave. (2019) Evaluation of laboratory ageing procedures on cracking performance of asphalt mixtures. Road Materials and Pavement Design 20:sup2, pages S647-S662.
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Articles from other publishers (46)
Xingyu Chen, Yuhong Wang, Yong Wen, Huailei Cheng, Gengren Hao & Jingbo Wang. (2023) Quantitative analysis of oxidative aging effects on the fatigue resistance of asphalt mixtures based on the simplified viscoelastic continuum damage (S-VECD) model. International Journal of Fatigue 177, pages 107916.
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Mohit Chaudhary, Nikhil Saboo, Ankit Gupta, Michael Steineder & Bernhard Hofko. (2022) Effect of analysis procedure and sample geometry on the fatigue life results of asphalt mastics from linear amplitude sweep test. Mechanics of Time-Dependent Materials 27:4, pages 1097-1121.
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Hongfu LiuWenwen GeGuoxi Liang, Xinyu Yang, Liyin ChenDongzhao Jin, Chenfeng Chu, Xiangbin Gong, Huanan Yu & Songtao Lv. (2023) Characterization of Fatigue Damage Properties of Fine Aggregate Matrix and Hot Mix Asphalt. Journal of Testing and Evaluation 51:6, pages 20220597.
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Edoardo Bocci & Emiliano Prosperi. (2023) Recyclability of reclaimed asphalt rubber pavement. Construction and Building Materials 403, pages 133040.
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Farshad Saberi K.Yizhuang David Wang & Jenny Liu. (2023) Improving rheological and thermal performance of Gilsonite-Modified binder with phase change materials. Construction and Building Materials 399, pages 132557.
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Jing Ding, Jaehoon Jeong, Kangjin Caleb Lee, B. Shane Underwood, Youngsoo Richard Kim & Cassie Castorena. (2023) Repeatability and Reproducibility Analysis for Functional Test Results from Asphalt Mixture Performance Tester Cyclic Fatigue Test. Transportation Research Record: Journal of the Transportation Research Board 2677:9, pages 539-554.
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Silvio Lisboa Schuster, Lucas Dotto Bueno, Bruno de Souza ChavesVictória Nunes Ramos, Pedro O. B. AlmeidaJr.Jr., Cleber Faccin, Luciano Pivoto SpechtDeividi da Silva Pereira. (2023) Investigation of Small Samples for Characterization of Linear Viscoelastic Properties and Fatigue Performance of Asphalt Mixtures. Journal of Materials in Civil Engineering 35:9.
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Rita Flávia Régis Queiroz, John Kennedy Guedes Rodrigues, Jonny Dantas Patricio, Pedro Henrique da Silva, Jeovanesa Regis Carvalho, Osires de Medeiros Melo Neto, Leonardo Guedes Rodrigues & Robson Kel Batista de Lima. (2023) Linear viscoelastic properties and fatigue S-VECD based evaluation of polymer-modified asphalt mixtures. Journal of Building Engineering 75, pages 106916.
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Zhe Zeng, Y. Richard Kim, B. Shane Underwood & Murthy Guddati. (2023) Asphalt mixture fatigue damage and failure predictions using the simplified viscoelastic continuum damage (S-VECD) model. International Journal of Fatigue 174, pages 107736.
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Zhe Zeng, Bin Liu & Derun Zhang. (2023) Critical evaluation of unit response function interconversions for asphalt concrete linear viscoelastic modeling using discrete spectrum. Construction and Building Materials 382, pages 131301.
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Elena Gaudenzi, Lorenzo Paolo Ingrassia, Fabrizio Cardone, Xiaohu Lu & Francesco Canestrari. (2023) Investigation of unaged and long-term aged bio-based asphalt mixtures containing lignin according to the VECD theory. Materials and Structures 56:4.
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Yizhuang David Wang, Jun LiuJenny Liu. (2023) Integrating Quality Assurance in Balance Mix Designs for Durable Asphalt Mixtures: State-of-the-Art Literature Review. Journal of Transportation Engineering, Part B: Pavements 149:1.
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Jitong DingYajin HanQipeng ZhangJiwang JiangFujian NiXiang Ma. (2023) Impact of Laboratory Long-Term Aging Procedures on Intermediate-Temperature Behavior of Asphalt Binders in Asphalt Fine Aggregate Matrix Mixtures. Journal of Transportation Engineering, Part B: Pavements 149:1.
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Huanan Yu, Hao HuXuan Zhu, Guoping Qian, Chao ZhangDing YaoPing Li. (2023) The Fatigue-Creep Coupling Effect of Asphalt-Mixture Damage Model under Different Loading Frequencies. Journal of Materials in Civil Engineering 35:2.
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Lorenzo Paolo Ingrassia, Sara Spadoni, Gilda Ferrotti, Amedeo Virgili & Francesco Canestrari. (2023) Prediction of the Long-Term Performance of an Existing Warm Recycled Motorway Pavement. Materials 16:3, pages 1005.
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A. Kazuo Kuchiishi, Kangjin “Caleb” Lee & B. Shane Underwood. (2023) Simplified protocol for fatigue cracking characterization of asphalt mixtures using the direct tension cyclic fatigue test. Construction and Building Materials 363, pages 129828.
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Danial Mirzaiyanrajeh, Eshan V. Dave, Jo E. Sias & Navneet Garg. (2022) Exploration of Cracking-Related Performance-Based Specification Indexes for Airfield Asphalt Mixtures. Journal of Transportation Engineering, Part B: Pavements 148:4.
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Huailei Cheng, Lijun Sun, Yuhong Wang, Liping Liu & Xingyu Chen. (2022) Fatigue test setups and analysis methods for asphalt mixture: A state-of-the-art review. Journal of Road Engineering 2:4, pages 279-308.
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Sara Spadoni, Lorenzo Paolo Ingrassia, Eugenio Mariani, Fabrizio Cardone & Francesco Canestrari. (2022) Long-term performance assessment of a warm recycled motorway pavement. Case Studies in Construction Materials 17, pages e01451.
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Nithin Sudarsanan & Youngsoo Richard Kim. (2022) A critical review of the fatigue life prediction of asphalt mixtures and pavements. Journal of Traffic and Transportation Engineering (English Edition) 9:5, pages 808-835.
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Jacob Uzan. (2022) Uniaxial Tension Fatigue Test of Asphalt Concrete—An Improved Framework. Journal of Testing and Evaluation 50:5, pages 20220048.
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Danial Mirzaiyanrajeh, Eshan V. DaveJo E. Sias, Zachary D. McKayPhillip P. Blankenship. (2022) Comprehensive Evaluation of Properties and Performance of Asphalt Mixtures with Reactive Isocyanate and Styrene-Butadiene-Styrene-Modified Binders. Journal of Materials in Civil Engineering 34:9.
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Sara Spadoni, Lorenzo Paolo Ingrassia, Douglas Mocelin, Y. Richard Kim & Francesco Canestrari. (2022) Comparison of asphalt mixtures containing polymeric compounds and polymer-modified bitumen based on the VECD theory. Construction and Building Materials 349, pages 128725.
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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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Danial Mirzaiyanrajeh, Christopher Decarlo, Mohamed Elshaer, Runhua Zhang, Eshan Dave & Jo Sias. (2022) Performance Evaluation of Pelletized Solid Polymer Modified Asphalt Mixtures. Transportation Research Record: Journal of the Transportation Research Board 2676:5, pages 67-81.
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Jun LiuYizhuang David Wang & Jenny Liu. (2022) Implementation of the Linear Amplitude Sweep Test to Evaluate Fatigue Resistance of Highly Polymerized Asphalt Binders. Journal of Materials in Civil Engineering 34:5.
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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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Runhua Zhang, Jo E. Sias & Eshan V. Dave. (2022) Evaluation of the cracking and aging susceptibility of asphalt mixtures using viscoelastic properties and master curve parameters. Journal of Traffic and Transportation Engineering (English Edition) 9:1, pages 106-119.
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Haichuan Jia, Huaxin Chen, Yanping Sheng, Jiandang Meng, Shian Cui, Y. Richard Kim, Shouchao Huang & Hao Qin. (2022) Effect of laboratory aging on the stiffness and fatigue cracking of asphalt mixture containing bamboo fiber. Journal of Cleaner Production 333, pages 130120.
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Jaehoon Jeong, B. Shane Underwood & Y. Richard Kim. (2022) Cracking performance predictions using index-volumetrics relationships with direct tension cyclic fatigue test and Illinois Flexibility Index Test (I-FIT). Construction and Building Materials 315, pages 125631.
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Javier J. García Mainieri, Punit Singhvi, Hasan Ozer, Brajendra K. Sharma & Imad L. Al-Qadi. (2021) Fatigue Tolerance of Aged Asphalt Binders Modified with Softeners. Transportation Research Record: Journal of the Transportation Research Board 2675:11, pages 1229-1244.
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Mohammad Molayem, Mahmoud Ameri, Mohammad Reza Mohammad Aliha & Fereidoon Moghadas Nejad. (2021) Prediction of load-CMOD curves for HMA mixtures at intermediate temperatures subjected to mixed mode loading. Engineering Fracture Mechanics 254, pages 107937.
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Runhua Zhang, Jo E. Sias & Eshan V. Dave. (2021) Comparison and correlation of asphalt binder and mixture cracking parameters incorporating the aging effect. Construction and Building Materials 301, pages 124075.
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Runhua Zhang, Jo E. Sias & Eshan V. Dave. (2021) Development of a rheology-based mixture aging model for asphalt material cracking performance evaluation. Materials and Structures 54:4.
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Haichuan Jia, Yanping Sheng, Hongli Lv, Y.Richard Kim, Xiaorui Zhao, Jiandang Meng & Rui Xiong. (2021) Effects of bamboo fiber on the mechanical properties of asphalt mixtures. Construction and Building Materials 289, pages 123196.
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Jitong Ding, Jiwang Jiang, Fujian Ni, Qiao Dong & Zili Zhao. (2020) Correlation investigation of fatigue indices of fine aggregate matrix (FAM) and asphalt mixture containing reclaimed asphalt pavement materials. Construction and Building Materials 262, pages 120646.
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Rong LuoHui Chen. (2020) Improved Method of Characterizing Fracture Resistance of Asphalt Mixtures Using Modified Paris’ Law: Development of Methodology. Journal of Materials in Civil Engineering 32:10.
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Francesco Canestrari & Lorenzo Paolo Ingrassia. (2020) A review of top-down cracking in asphalt pavements: Causes, models, experimental tools and future challenges. Journal of Traffic and Transportation Engineering (English Edition) 7:5, pages 541-572.
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Jianhui Wei, Tao Fu, Yongjun Meng & Chengming Xiao. (2020) Investigating the Fatigue Characteristics of Large Stone Asphalt Mixtures Based on the Disturbed State Concept. Advances in Materials Science and Engineering 2020, pages 1-10.
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Zeyu Zhang & Markus Oeser. (2020) Residual strength model and cumulative damage characterization of asphalt mixture subjected to repeated loading. International Journal of Fatigue 135, pages 105534.
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Yao Zhang, Xue Luo, Yong Deng, Shuguang Hou, Xijun Shi & Robert L. Lytton. (2020) Evaluation of rutting potential of flexible pavement structures using energy-based pseudo variables. Construction and Building Materials 247, pages 118391.
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Jing Ding, Yizhuang David Wang, Saqib Gulzar, Youngsoo Richard Kim & B. Shane Underwood. (2020) Uncertainty Quantification of Simplified Viscoelastic Continuum Damage Fatigue Model using the Bayesian Inference-Based Markov Chain Monte Carlo Method. Transportation Research Record: Journal of the Transportation Research Board 2674:4, pages 247-260.
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Runhua Zhang, Jo E. Sias, Eshan V. Dave & Reyhaneh Rahbar-Rastegar. (2019) Impact of Aging on the Viscoelastic Properties and Cracking Behavior of Asphalt Mixtures. Transportation Research Record: Journal of the Transportation Research Board 2673:6, pages 406-415.
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Rasool Nemati, Eshan V. Dave, Jo E. Sias, Eric S. Thibodeau & Ryan K. Worsman. (2019) Evaluation of Laboratory Performance and Structural Contribution of Cold Recycled Versus Hot Mixed Intermediate and Base Course Asphalt Layers in New Hampshire. Transportation Research Record: Journal of the Transportation Research Board 2673:6, pages 467-476.
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Mahmoud Ameri, Ali Mansourkhaki & Daryoosh Daryaee. (2019) Evaluation of fatigue behavior of asphalt binders containing reclaimed asphalt binder using simplified viscoelastic continuum damage approach. Construction and Building Materials 202, pages 374-386.
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Yizhuang David Wang, Behrooz Keshavarzi & Y. Richard Kim. (2018)
Fatigue Performance Prediction of Asphalt Pavements with FlexPAVE
TM
, the S-VECD Model, and
D
R
Failure Criterion
. Transportation Research Record: Journal of the Transportation Research Board 2672:40, pages 217-227.
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