RAP pre-treatment for fast cold in-place recycling

P. Lin; X. Liu; S. Ren; Y. Li; S. Erkens; B. Welvaarts; K. Brouns

doi:10.1201/9781003387374-16

RAP pre-treatment for fast cold in-place recycling

P. Lin, X. Liu, S. Ren, Y. Li, S. Erkens, B. Welvaarts, K. Brouns

Pavement Engineering

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

Abstract

Developed by Delft University of Technology, the tri-component polyurethane modified cold binder (PMCB) displays impressive durability and strength in asphalt mixtures, showing promise as a reliable binder for cold in-place recycling. However, when applying PMCB for rapid, in-situ recycling, the presence of moisture in reclaimed asphalt pavement (RAP) poses a significant challenge. To address this, an innovative approach involving treatment of the wet RAP with Calcium dioxide (CaO) prior to the integration of PMCB was tested. Evaluation methods used included the Indirect Tensile Test (ITT), followed by the calculation of the Indirect Tensile Strength Ratio (ITSR) to assess moisture susceptibility. Furthermore, Cantabro tests were performed to determine the material loss under abrasion and weathering conditions. These assessments underscored the feasibility of this approach. The treatment of wet RAP with CaO has proven a viable strategy for rapid in-situ recycling with PMCB, contributing to sustainable pavement construction. In addition, the research identified that a 5.5% concentration of the PMCB binder maximizes structural integrity and performance in the considered RAP.

Original language	English
Title of host publication	Advances in Functional Pavements
Subtitle of host publication	Proceedings of the 7th Chinese-European Workshop on Functional Pavements, CEW 2023
Editors	Yuqing Zhang, Gordon Airey, Mujib Rahman, Haopeng Wang
Publisher	CRC Press / Balkema - Taylor & Francis Group
Pages	78-82
Number of pages	5
ISBN (Print)	9781032480923
DOIs	https://doi.org/10.1201/9781003387374-16
Publication status	Published - 2024
Event	7th Chinese-European Workshop on Functional Pavements, CEW 2023 - Birmingham, United Kingdom Duration: 2 Jul 2023 → 4 Jul 2023

Conference

Conference	7th Chinese-European Workshop on Functional Pavements, CEW 2023
Country/Territory	United Kingdom
City	Birmingham
Period	2/07/23 → 4/07/23

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10.1201/9781003387374-16

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Lin, P., Liu, X., Ren, S., Li, Y., Erkens, S., Welvaarts, B., & Brouns, K. (2024). RAP pre-treatment for fast cold in-place recycling. In Y. Zhang, G. Airey, M. Rahman, & H. Wang (Eds.), Advances in Functional Pavements: Proceedings of the 7th Chinese-European Workshop on Functional Pavements, CEW 2023 (pp. 78-82). CRC Press / Balkema - Taylor & Francis Group. https://doi.org/10.1201/9781003387374-16

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title = "RAP pre-treatment for fast cold in-place recycling",

abstract = "Developed by Delft University of Technology, the tri-component polyurethane modified cold binder (PMCB) displays impressive durability and strength in asphalt mixtures, showing promise as a reliable binder for cold in-place recycling. However, when applying PMCB for rapid, in-situ recycling, the presence of moisture in reclaimed asphalt pavement (RAP) poses a significant challenge. To address this, an innovative approach involving treatment of the wet RAP with Calcium dioxide (CaO) prior to the integration of PMCB was tested. Evaluation methods used included the Indirect Tensile Test (ITT), followed by the calculation of the Indirect Tensile Strength Ratio (ITSR) to assess moisture susceptibility. Furthermore, Cantabro tests were performed to determine the material loss under abrasion and weathering conditions. These assessments underscored the feasibility of this approach. The treatment of wet RAP with CaO has proven a viable strategy for rapid in-situ recycling with PMCB, contributing to sustainable pavement construction. In addition, the research identified that a 5.5% concentration of the PMCB binder maximizes structural integrity and performance in the considered RAP.",

author = "P. Lin and X. Liu and S. Ren and Y. Li and S. Erkens and B. Welvaarts and K. Brouns",

year = "2024",

doi = "10.1201/9781003387374-16",

language = "English",

isbn = "9781032480923",

pages = "78--82",

editor = "Yuqing Zhang and Gordon Airey and Mujib Rahman and Haopeng Wang",

booktitle = "Advances in Functional Pavements",

publisher = "CRC Press / Balkema - Taylor & Francis Group",

note = "7th Chinese-European Workshop on Functional Pavements, CEW 2023 ; Conference date: 02-07-2023 Through 04-07-2023",

}

Lin, P , Liu, X , Ren, S , Li, Y , Erkens, S, Welvaarts, B & Brouns, K 2024, RAP pre-treatment for fast cold in-place recycling. in Y Zhang, G Airey, M Rahman & H Wang (eds), Advances in Functional Pavements: Proceedings of the 7th Chinese-European Workshop on Functional Pavements, CEW 2023. CRC Press / Balkema - Taylor & Francis Group, pp. 78-82, 7th Chinese-European Workshop on Functional Pavements, CEW 2023, Birmingham, United Kingdom, 2/07/23. https://doi.org/10.1201/9781003387374-16

RAP pre-treatment for fast cold in-place recycling. / Lin, P.; Liu, X.; Ren, S. et al.
Advances in Functional Pavements: Proceedings of the 7th Chinese-European Workshop on Functional Pavements, CEW 2023. ed. / Yuqing Zhang; Gordon Airey; Mujib Rahman; Haopeng Wang. CRC Press / Balkema - Taylor & Francis Group, 2024. p. 78-82.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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T1 - RAP pre-treatment for fast cold in-place recycling

AU - Lin, P.

AU - Liu, X.

AU - Ren, S.

AU - Li, Y.

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AU - Welvaarts, B.

AU - Brouns, K.

PY - 2024

Y1 - 2024

N2 - Developed by Delft University of Technology, the tri-component polyurethane modified cold binder (PMCB) displays impressive durability and strength in asphalt mixtures, showing promise as a reliable binder for cold in-place recycling. However, when applying PMCB for rapid, in-situ recycling, the presence of moisture in reclaimed asphalt pavement (RAP) poses a significant challenge. To address this, an innovative approach involving treatment of the wet RAP with Calcium dioxide (CaO) prior to the integration of PMCB was tested. Evaluation methods used included the Indirect Tensile Test (ITT), followed by the calculation of the Indirect Tensile Strength Ratio (ITSR) to assess moisture susceptibility. Furthermore, Cantabro tests were performed to determine the material loss under abrasion and weathering conditions. These assessments underscored the feasibility of this approach. The treatment of wet RAP with CaO has proven a viable strategy for rapid in-situ recycling with PMCB, contributing to sustainable pavement construction. In addition, the research identified that a 5.5% concentration of the PMCB binder maximizes structural integrity and performance in the considered RAP.

AB - Developed by Delft University of Technology, the tri-component polyurethane modified cold binder (PMCB) displays impressive durability and strength in asphalt mixtures, showing promise as a reliable binder for cold in-place recycling. However, when applying PMCB for rapid, in-situ recycling, the presence of moisture in reclaimed asphalt pavement (RAP) poses a significant challenge. To address this, an innovative approach involving treatment of the wet RAP with Calcium dioxide (CaO) prior to the integration of PMCB was tested. Evaluation methods used included the Indirect Tensile Test (ITT), followed by the calculation of the Indirect Tensile Strength Ratio (ITSR) to assess moisture susceptibility. Furthermore, Cantabro tests were performed to determine the material loss under abrasion and weathering conditions. These assessments underscored the feasibility of this approach. The treatment of wet RAP with CaO has proven a viable strategy for rapid in-situ recycling with PMCB, contributing to sustainable pavement construction. In addition, the research identified that a 5.5% concentration of the PMCB binder maximizes structural integrity and performance in the considered RAP.

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BT - Advances in Functional Pavements

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A2 - Airey, Gordon

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PB - CRC Press / Balkema - Taylor & Francis Group

T2 - 7th Chinese-European Workshop on Functional Pavements, CEW 2023

Y2 - 2 July 2023 through 4 July 2023

ER -

RAP pre-treatment for fast cold in-place recycling

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