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International Journal of Pavement Engineering Volume 8, 2007 - Issue 2: Foamed Asphalt Pavements
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Original Articles

Characterization of foamed-bitumen stabilisation

J. M. Ramanujam Queensland Department of Main Roads, M.I.C.E (London), M.I.E., R.E.P., Herston, QLD, AustraliaCorrespondence[email protected]
&
J. D. Jones Queensland Department of Main Roads, M.I.C.E (London), M.I.E., R.E.P., Herston, QLD, Australia
Pages 111-122 | Received 06 Nov 2005, Accepted 21 Sep 2006, Published online: 08 Mar 2007

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Abhary Eleyedath, Siksha Swaroopa Kar & Aravind Krishna Swamy. (2021) Modelling of expansion ratio and half-life of foamed bitumen using gene expression programming. International Journal of Pavement Engineering 22:3, pages 369-381.
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Kranthi Kuna, Gordon Airey & Nick Thom. (2017) Mix design considerations of foamed bitumen mixtures with reclaimed asphalt pavement material. International Journal of Pavement Engineering 18:10, pages 902-915.
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Sadaf Khosravifar, Charles W. Schwartz & Dimitrios G. Goulias. (2015) Mechanistic structural properties of foamed asphalt stabilised base materials. International Journal of Pavement Engineering 16:1, pages 27-38.
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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 (29)

Grzegorz Mazurek, Przemysław Buczyński, Piotr Mackiewicz & Marek Iwański. (2023) Field investigation of a deep recycled base course layer containing dedicated three component hydraulic and bituminous binder. Construction and Building Materials 390, pages 131685.
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Konstantinos Gkyrtis, Christina Plati & Andreas Loizos. (2023) Structural Performance of Foamed Asphalt Base in a Full Depth Reclaimed and Sustainable Pavement. Sustainability 15:4, pages 3622.
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Haiying Cheng, Zhun Luo & Nd Seliverstov. (2022) A Study of Foam Bitumen Preparation for Effective Recycling of Pavement Layers. Sustainability 14:15, pages 9375.
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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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Purbayan Ghosh Mondal & Kranthi K. Kuna. (2022) Mix design considerations for foamed bitumen stabilized materials: A review. Construction and Building Materials 326, pages 126783.
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Rodgers Bangi Mugume. (2021) Investigation of Foamed Bitumen Mixes Using Reclaimed Asphalt Pavement Materials for Cold Recycling Technology. International Journal of Pavement Research and Technology 15:1, pages 98-110.
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Grzegorz Mazurek, Przemysław Buczyński, Marek Iwański & Marcin Podsiadło. (2021) Thermal Analysis-Based Field Validation of the Deformation of a Recycled Base Course Made with Innovative Road Binder. Materials 14:20, pages 5925.
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Abhary EleyedathSiksha Swaroopa KarAravind Krishna Swamy. (2021) SOM-and-GEP-Based Model for the Prediction of Foamed Bitumen Characteristics. Journal of Transportation Engineering, Part B: Pavements 147:2, pages 04021008.
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Grzegorz Mazurek, Marek Iwański, Przemysław Buczyński & Renata Horodecka. (2021) Influence of innovative three-element binder on permanent deformations in recycled mixtures with emulsion and foamed bitumen. Archives of Civil and Mechanical Engineering 21:2.
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C. N. V. Satyanarayana Reddy, T. V. Viswa Teja & Ch. Vineel. 2021. Transportation, Water and Environmental Geotechnics. Transportation, Water and Environmental Geotechnics 307 315 .
Greg White & Roberto Espinosa. (2020) Laboratory Evaluation of Gradation Improvement of Marginal Materials for Foamed Bitumen Stabilisation. Applied Sciences 10:12, pages 4224.
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Didier Bodin, James Grenfell & Geoff Jameson. 2020. Accelerated Pavement Testing to Transport Infrastructure Innovation. Accelerated Pavement Testing to Transport Infrastructure Innovation 300 308 .
M. K. NivedyaA. VeeraragavanParag RavindranJ. Murali Krishnan. (2018) Investigation on the Influence of Air Voids and Active Filler on the Mechanical Response of Bitumen Stabilized Material. Journal of Materials in Civil Engineering 30:3.
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Kranthi KunaGordon Airey & Nick Thom. (2018) Structural design of pavements incorporating foamed bitumen mixtures. Proceedings of the Institution of Civil Engineers - Construction Materials 171:1, pages 22-35.
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Siksha Swaroopa KarAravind Krishna Swamy, Devesh Tiwari & Pramod Kumar Jain. (2017) Impact of binder on properties of foamed bituminous mixtures. Proceedings of the Institution of Civil Engineers - Construction Materials 170:4, pages 194-204.
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M. K. Nivedya & A. Veeraragavan. 2017. Sustainability Issues in Civil Engineering. Sustainability Issues in Civil Engineering 35 50 .
Biruk W. Hailesilassie, Martin Hugener, Andrea Bieder & Manfred N. Partl. (2015) New experimental methods for characterizing formation and decay of foam bitumen. Materials and Structures 49:6, pages 2439-2454.
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Gilberto Martinez-Arguelles, Filippo Giustozzi, Maurizio Crispino & Gerardo W. Flintsch. (2015) Laboratory investigation on mechanical performance of cold foamed bitumen mixes: Bitumen source, foaming additive, fiber-reinforcement and cement effect. Construction and Building Materials 93, pages 241-248.
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Biruk W. Hailesilassie, Philipp Schuetz, Iwan Jerjen, Martin Hugener & Manfred N. Partl. (2014) Dynamic X-ray radiography for the determination of foamed bitumen bubble area distribution. Journal of Materials Science 50:1, pages 79-92.
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Jinzhi Xu & Peiwen Hao. (2014) The influence of material related parameters on the mechanical properties of foamed asphalt mix. Journal of Wuhan University of Technology-Mater. Sci. Ed. 29:1, pages 119-125.
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Kranthi KunaGordon AireyNick Thom. (2018) Laboratory Mix Design Procedure for Foamed Bitumen Mixtures. Transportation Research Record: Journal of the Transportation Research Board 2444:1, pages 1-10.
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Sadaf Khosravifar, Charles W. Schwartz & Dimitrios G. Goulias. (2013) Foamed Asphalt Stabilized Base: A Case Study. Foamed Asphalt Stabilized Base: A Case Study.
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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Thomas A. Doyle, Ciaran McNally, Amanda Gibney & Amir Tabaković. (2013) Developing maturity methods for the assessment of cold-mix bituminous materials. Construction and Building Materials 38, pages 524-529.
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Hai Ying Cheng, Ting Yuan Yan, Peng Fei Wang, Zhi Qiang Li & Juan Du. (2012) The Matching of Flow Control and Structure Parameters for the Bitumen Foaming Technology. Advanced Materials Research 535-537, pages 2002-2006.
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Sadaf Khosravifar, Dimitrios G. Goulias & Charles W. Schwartz. (2012) Laboratory Evaluation of Foamed Asphalt Stabilized Base Materials. Laboratory Evaluation of Foamed Asphalt Stabilized Base Materials.
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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Felipe A. HallesGuillermo Z. Thenoux. (2018) Degree of Influence of Active Fillers on Properties of Recycled Mixes with Foamed Asphalt. Transportation Research Record: Journal of the Transportation Research Board 2095:1, pages 127-135.
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Pengcheng FuJohn T. HarveyDavid JonesYou-Chen Chao. (2018) Understanding Internal Structure Characteristics of Foamed Asphalt Mixes with Fracture Face Image Analyses. Transportation Research Record: Journal of the Transportation Research Board 2057:1, pages 20-27.
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