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International Journal of Pavement Engineering Volume 21, 2020 - Issue 9
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Articles

Study on understanding functional characteristics of multi-wall CNT modified asphalt binder

Prabin Kumar AshishDepartment of Civil Engineering, Indian Institute of Technology Bombay, Mumbai, IndiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-9433-3652
ORCID Icon &
Dharamveer SinghDepartment of Civil Engineering, Indian Institute of Technology Bombay, Mumbai, India
Pages 1069-1082 | Received 23 Feb 2018, Accepted 29 Aug 2018, Published online: 06 Sep 2018

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Yujie Tang, Zhen Fu, Feng Ma, Jun Liu, Qiyu Sun & Chen Li. (2023) Carbon nanotubes for improving rheological and chemical properties of styrene–butadiene–styrene modified asphalt binder. International Journal of Pavement Engineering 24:1.
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Sidharth Kumar Patra, Mahabir Panda, Aditya Kumar Das & Prasanta Kumar Bhuyan. (2023) Performance evaluation of surface-treated montmorillonite nanoclay-modified bitumen binder at high- and intermediate-temperature conditions. Road Materials and Pavement Design 24:5, pages 1330-1352.
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Prabin Kumar Ashish & Dharamveer Singh. (2022) Performance-based laboratory evaluation of asphaltic mixture containing asphalt binder-Carbon Nano Tube composite. Road Materials and Pavement Design 23:6, pages 1370-1389.
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Prabin Kumar Ashish & Dharamveer Singh. (2021) Use of nanomaterial for asphalt binder and mixtures: a comprehensive review on development, prospect, and challenges. Road Materials and Pavement Design 22:3, pages 492-538.
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Sebnem Karahancer. (2020) Effect of aluminum oxide nano particle on modified bitumen and hot mix asphalt. Petroleum Science and Technology 38:13, pages 773-784.
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Articles from other publishers (16)

Jiandong Zhang, Liangfeng Sun, Haifei Zhan, Yihan Nie, Yingying Pang, Chengyou Bian & Chaofeng Lü. (2023) Impact of diamond nanothread on the viscosity of asphalt binder: Insights from atomistic simulations. Journal of Cleaner Production, pages 139945.
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Lei Luo, Pengfei Liu, Sabine Leischner & Markus Oeser. (2023) Atomic insight into the nano-cracking resistance and interfacial bonding mechanism of carbon nanotube reinforced bitumen. Applied Surface Science 628, pages 157384.
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Qilin Yang & Caihua Yu. (2022) Multiscale Enhancement Mechanism of Carbon Nanotube-Modified Asphalt at High Temperature by Oxidative Aging: A Molecular Dynamics Simulation Investigation. Energy & Fuels 36:24, pages 15279-15296.
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Lei Luo, Pengfei Liu & Markus Oeser. (2022) A molecular dynamics simulation study on enhancement of thermal conductivity of bitumen by introduction of carbon nanotubes. Construction and Building Materials 353, pages 129166.
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Yanhai Wang, Pawel Polaczyk, Junxi He, Hang Lu, Rui Xiao & Baoshan Huang. (2022) Dispersion, compatibility, and rheological properties of graphene-modified asphalt binders. Construction and Building Materials 350, pages 128886.
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Awais Zahid, Sarfraz Ahmed & Muhammad Irfan. (2022) Experimental investigation of nano materials applicability in Hot Mix Asphalt (HMA). Construction and Building Materials 350, pages 128882.
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Xiaokong Yu, Mehdi ZadshirJessie Ruixuan YanHuiming Yin. (2022) Morphological, Thermal, and Mechanical Properties of Asphalt Binders Modified by Graphene and Carbon Nanotube. Journal of Materials in Civil Engineering 34:5.
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Feng Ma, Jiasheng Dai, Zhen Fu, Chen Li, Yalu Wen, Meng Jia, Yujie Wang & Ke Shi. (2022) Biochar for asphalt modification: A case of high-temperature properties improvement. Science of The Total Environment 804, pages 150194.
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Sidharth Kumar Patra, Mahabir Panda & Aditya Kumar Das. 2022. Road and Airfield Pavement Technology. Road and Airfield Pavement Technology 703 712 .
Mulian Zheng, Yumei Liu, Xia Liu, Wenwu Zhang, Fei Wang & Shan Liu. (2021) Study on the viscoelastic behaviour of the modified asphalt containing multi-walled carbon nanotubes (MWCNTs) and crumb rubber (CR). Construction and Building Materials 311, pages 125244.
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Xiaorui Zhang, Xinxing Zhou, Wei Ji, Fan Zhang & Frédéric Otto. (2021) Characterizing the mechanical properties of Multi-Layered CNTs reinforced SBS modified Asphalt-Binder. Construction and Building Materials 296, pages 123658.
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Henglong Zhang, Haihui Duan, Chongzheng Zhu, Zihao Chen & Huan Luo. (2021) Mini-Review on the Application of Nanomaterials in Improving Anti-Aging Properties of Asphalt. Energy & Fuels 35:14, pages 11017-11036.
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Peerzada Mosir ShahMohammad Shafi Mir. (2020) Application of nanotechnology in pavement engineering: a review. Canadian Journal of Civil Engineering 47:9, pages 1037-1045.
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Peerzada Mosir Shah & Mohammad Shafi Mir. (2020) Effect of kaolinite clay/SBS on rheological performance of asphalt binder. Innovative Infrastructure Solutions 5:1.
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Prabin Kumar Ashish, Dharamveer SinghRahul Jain. (2020) Evaluating the Effect of Carbon Nanotube on Low Temperature Property of Asphalt Binder through Dissipated Energy–Based Approach. Journal of Materials in Civil Engineering 32:3.
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Zhen Fu, Yujie Tang, Feng Ma, Qiyu Sun & Chen Li. (2022) Carbon Nanotubes for Improving Rheological and Chemical Properties of Styrene-Butadiene-Styrene Modified Asphalt Binder. SSRN Electronic Journal.
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