Citations (22)
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Read on this site (8)
Pengjian Cheng, Junyan Yi, Zhuo Chen, Hai Luan & Decheng Feng. (2022) Influence factors of strength and performance of foamed asphalt cold recycled mixture. Road Materials and Pavement Design 23:2, pages 461-476.
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Monica Meocci, Andrea Grilli, Francesca La Torre & Maurizio Bocci. (2017) Evaluation of mechanical performance of cement–bitumen-treated materials through laboratory and in-situ testing. Road Materials and Pavement Design 18:2, pages 376-389.
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Carlotta Godenzoni, Andrea Graziani & Daniel Perraton. (2017) Complex modulus characterisation of cold-recycled mixtures with foamed bitumen and different contents of reclaimed asphalt. Road Materials and Pavement Design 18:1, pages 130-150.
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Mojtaba Nazemi & Ali Heidaripanah. (2016) Support vector machine to predict the indirect tensile strength of foamed bitumen-stabilised base course materials. Road Materials and Pavement Design 17:3, pages 768-778.
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Maurizio Bocci, Andrea Grilli, Fabrizio Cardone & Gilda Ferrotti. (2014) Full-depth reclamation for the rehabilitation of local roads: a case study. International Journal of Pavement Engineering 15:3, pages 191-201.
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Andrea Grilli, Andrea Graziani & Maurizio Bocci. (2012) Compactability and thermal sensitivity of cement–bitumen-treated materials. Road Materials and Pavement Design 13:4, pages 599-617.
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Pengcheng Fu, David Jones, JohnT. Harvey & SyedA. Bukhari. (2009) Laboratory Test Methods for Foamed Asphalt Mix Resilient Modulus. Road Materials and Pavement Design 10:1, pages 188-212.
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Pengcheng Fu, BruceD. Steven, David Jones & JohnT. Harvey. (2009) Relating Laboratory Foamed Asphalt Mix Resilient Modulus Tests to Field Measurements. Road Materials and Pavement Design 10:1, pages 155-185.
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Articles from other publishers (14)
Marek Iwański, Grzegorz Mazurek, Przemysław Buczyński & Mateusz M. Iwański. (2022) Effects of hydraulic binder composition on the rheological characteristics of recycled mixtures with foamed bitumen for full depth reclamation. Construction and Building Materials 330, pages 127274.
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Farshid Maghool, Arul Arulrajah, Behnam Ghorbani & Suksun Horpibulsuk. (2022) Strength and permanent deformation properties of demolition wastes, glass, and plastics stabilized with foamed bitumen for pavement bases. Construction and Building Materials 320, pages 126108.
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Ali Saleh & László Gáspár. (2021) Advantages and limitations of using foamed bitumen. Acta Technica Jaurinensis 14:3, pages 300-314.
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Feipeng Xiao, Shenglei Yao, Jingang Wang, Xinghai Li & Serji Amirkhanian. (2018) A literature review on cold recycling technology of asphalt pavement. Construction and Building Materials 180, pages 579-604.
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Grzegorz Mazurek & Marek Iwański. (2018) Multidimensional Analysis of the Effects of Waste Materials on Physical and Mechanical Properties of Recycled Mixtures with Foamed Bitumen. Applied Sciences 8:2, pages 282.
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Ali Reza Ghanizadeh, Morteza Rahrovan & Kazem Barkhordari Bafghi. (2018) The effect of cement and reclaimed asphalt pavement on the mechanical properties of stabilized base via full-depth reclamation. Construction and Building Materials 161, pages 165-174.
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William Fedrigo, Washington Peres Núñez, Thaís Radünz Kleinert, Matheus Ferreira Matuella & Jorge Augusto Pereira Ceratti. (2017) Strength, shrinkage, erodibility and capillary flow characteristics of cement-treated recycled pavement materials. International Journal of Pavement Research and Technology 10:5, pages 393-402.
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Andrea Graziani, Carlotta Godenzoni, Fabrizio Cardone, Edoardo Bocci & Maurizio Bocci. (2017) An application of the Michaelis–Menten model to analyze the curing process of cold recycled bituminous mixtures. International Journal of Pavement Research and Technology 10:1, pages 62-74.
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Ahmed I. Nassar, Nicholas Thom & Tony Parry. (2016) Optimizing the mix design of cold bitumen emulsion mixtures using response surface methodology. Construction and Building Materials 104, pages 216-229.
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M. A. Díaz-Sánchez, D. H. Timm & B. K. Diefenderfer. 2016. The Roles of Accelerated Pavement Testing in Pavement Sustainability. The Roles of Accelerated Pavement Testing in Pavement Sustainability
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Alex K. ApeagyeiBrian K. Diefenderfer. (2013) Evaluation of Cold In-Place and Cold Central-Plant Recycling Methods Using Laboratory Testing of Field-Cored Specimens. Journal of Materials in Civil Engineering 25:11, pages 1712-1720.
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Felipe HallesGuillermo ThenouxÁlvaro González. (2018) Stiffness Evolution of Granular Materials Stabilized with Foamed Bitumen and Cement. Transportation Research Record: Journal of the Transportation Research Board 2363:1, pages 105-112.
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Peng LiJuanyu LiuStephan Saboundjian. (2011) Materials and Temperature Effects on the Resilient Response of Asphalt-Treated Alaskan Base Course Materials. Journal of Materials in Civil Engineering 23:2, pages 161-168.
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M. Bocci, A. Grilli, F. Cardone & A. Graziani. (2011) A study on the mechanical behaviour of cement–bitumen treated materials. Construction and Building Materials 25:2, pages 773-778.
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