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Citations (28)
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Read on this site (6)
Shobhit Jain & Anush K. Chandrappa. (2023) Investigation on blending characteristics in asphalt mixtures with recycled asphalt and waste cooking oil as rejuvenator. International Journal of Pavement Engineering 24:1.
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Shobhit Jain & Anush K. Chandrappa. (2023) A laboratory investigation on benefits of WCO utilisation in asphalt with high recycled asphalt content: emphasis on rejuvenation and aging. International Journal of Pavement Engineering 24:1.
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Lekhaz Devulapalli, Saravanan Kothandaraman & Goutham Sarang. (2022) Microstructural characterisation of reclaimed asphalt pavement with rejuvenators. International Journal of Pavement Engineering 23:4, pages 1038-1049.
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Teresa López-Montero, Rodrigo Miró & Adriana Martínez. (2022) Effect of the use of Marpol waste as a partial replacement of the binder for the manufacture of more sustainable bituminous mixtures. International Journal of Pavement Engineering 0:0, pages 1-15.
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Yiming Zhu, Junyan Yi, Meng Xu, Zhuo Chen, Shih-Hsien Yang & Decheng Feng. (2021) Quantum chemical simulation and laboratory testing of the curing mechanism and performance of resin bio-oil. International Journal of Pavement Engineering 22:9, pages 1123-1142.
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Md Arifuzzaman, Uneb Gazder, Muhammad Saiful Islam & Abdullah Al Mamun. (2020) Prediction and sensitivity analysis of CNTs-modified asphalt’s adhesion force using a radial basis neural network model. Journal of Adhesion Science and Technology 34:10, pages 1100-1114.
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Articles from other publishers (22)
Sumon Roy, Zahid Hossain, Gaylon Baumgardner & Musharraf Zaman. (2023) Micro-mechanistic and Spectroscopic Analysis of RAP-Blended Asphalt Binders Rejuvenated with Waste Oils. International Journal of Pavement Research and Technology.
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Abdullah Al Mamun, Pedro Romero & Abu Sufian Mohammad Asib. (2023) Laboratory Simulation of RAP Incorporated Mix in a Cold Region: An Artificial Intelligence-Based Approach. International Journal of Pavement Research and Technology.
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Shobhit Jain & Anush K. Chandrappa. (2023) Critical review on waste cooking oil rejuvenation in asphalt mixture with high recycled asphalt. Environmental Science and Pollution Research 30:32, pages 77981-78003.
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Huanan Yu, Jinguo Ge, Guoping Qian, Chao Zhang, Wan Dai & Ping Li. (2023) Evaluation on the rejuvenation and diffusion characteristics of waste cooking oil on aged SBS asphalt based on molecular dynamics method. Journal of Cleaner Production 406, pages 136998.
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Yaofei Luo & Ke Zhang. (2023) Review on Performance of Asphalt and Asphalt Mixture with Waste Cooking Oil. Materials 16:4, pages 1341.
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Dabbiru Sairam, Shobhit Jain, Anush K. Chandrappa & Umesh C. Sahoo. 2023. Recent Trends in Transportation Infrastructure, Volume 1. Recent Trends in Transportation Infrastructure, Volume 1
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Haibin Li, Mingming Zhang, Ahmed Abdulakeem Temitope, Xiaoyuan Guo, Jianmei Sun, Mulbah Yombah & Xiaolong Zou. (2022) Compound reutilization of waste cooking oil and waste engine oil as asphalt rejuvenator: performance evaluation and application. Environmental Science and Pollution Research 29:60, pages 90463-90478.
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Wei Han Foo, Sherlyn Sze Ning Koay, Shir Reen Chia, Wen Yi Chia, Doris Ying Ying Tang, Saifuddin Nomanbhay & Kit Wayne Chew. (2022) Recent advances in the conversion of waste cooking oil into value-added products: A review. Fuel 324, pages 124539.
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Emiliano Prosperi, Edoardo Bocci & Maurizio Bocci. (2022) Effect of Bitumen Production Process and Mix Heating Temperature on the Rheological Properties of Hot Recycled Mix Asphalt. Sustainability 14:15, pages 9677.
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Shiao Yan, Changjun Zhou & Yiren Sun. (2022) Evaluation of Rejuvenated Aged-Asphalt Binder by Waste-Cooking Oil with Secondary Aging Considered. Journal of Materials in Civil Engineering 34:8.
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Shiao Yan, Qiao Dong, Xueqin Chen, Changjun Zhou, Shi Dong & Xingyu Gu. (2022) Application of waste oil in asphalt rejuvenation and modification: A comprehensive review. Construction and Building Materials 340, pages 127784.
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Shiao Yan, Changjun Zhou & Jian Ouyang. (2022) Rejuvenation effect of waste cooking oil on the adhesion characteristics of aged asphalt to aggregates. Construction and Building Materials 327, pages 126907.
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Rongyan Tian, Haoyuan Luo, Xiaoming Huang, Yangzezhi Zheng, Leyi Zhu & Fengyang Liu. (2022) Correlation Analysis between Mechanical Properties and Fractions Composition of Oil-Rejuvenated Asphalt. Materials 15:5, pages 1889.
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Ben Moins, David Hernando, Matthias Buyle, Cyril France, Wim Van den bergh & Amaryllis Audenaert. (2022) On the road again! An economic and environmental break-even and hotspot analysis of reclaimed asphalt pavement and rejuvenators. Resources, Conservation and Recycling 177, pages 106014.
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Hasan Taherkhani & Farid Noorian. (2020) Investigating Permanent Deformation of Recycled Asphalt Concrete Containing Waste Oils as Rejuvenator Using Response Surface Methodology (RSM). Iranian Journal of Science and Technology, Transactions of Civil Engineering 45:3, pages 1989-2001.
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Haoyuan Luo, Xiaoming Huang, Rongyan Tian, Jinhui Huang, Binshuang Zheng, Dalin Wang & Bangyi Liu. (2021) Analysis of relationship between component changes and performance degradation of Waste-Oil-Rejuvenated asphalt. Construction and Building Materials 297, pages 123777.
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Md Zahid Hossain Khan, Suhana Koting, Herda Yati Binti Katman, Mohd Rasdan Ibrahim, Ali Mohammed Babalghaith & Obada Asqool. (2021) Performance of High Content Reclaimed Asphalt Pavement (RAP) in Asphaltic Mix with Crumb Rubber Modifier and Waste Engine Oil as Rejuvenator. Applied Sciences 11:11, pages 5226.
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Haibin Li, Fan Zhang, Zixuan Feng, Wenbo Li & Xiaolong Zou. (2021) Study on waste engine oil and waste cooking oil on performance improvement of aged asphalt and application in reclaimed asphalt mixture. Construction and Building Materials 276, pages 122138.
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Abdullah Al Mamun, H. I. Al-Abdul Wahhab & M. A. Dalhat. (2020) Comparative Evaluation of Waste Cooking Oil and Waste Engine Oil Rejuvenated Asphalt Concrete Mixtures. Arabian Journal for Science and Engineering 45:10, pages 7987-7997.
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Abdullah Al Mamun & Okan Sirin. (2020) Nanoscale Evaluation of Multi-Walled Carbon Nanotube’s Performance on Resisting Oxidization of Asphalt. Materials Science Forum 982, pages 195-200.
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A. A. Mamun & H. I. Al-Abdul Wahhab. (2018) Evaluation of Waste Engine Oil-Rejuvenated Asphalt Concrete Mixtures with High RAP Content. Advances in Materials Science and Engineering 2018, pages 1-8.
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A.A. Mamun & Md. Arifuzzaman. (2018) Nano-scale moisture damage evaluation of carbon nanotube-modified asphalt. Construction and Building Materials 193, pages 268-275.
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