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International Journal of Pavement Engineering Volume 13, 2012 - Issue 3
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Original Articles

Evaluation of pervious concrete pavement performance in cold weather climates

Vimy Henderson Civil and Environmental Engineering Department, University of Waterloo, Waterloo, ON, CanadaCorrespondence[email protected]
&
Susan Tighe Civil and Environmental Engineering Department, University of Waterloo, Waterloo, ON, Canada
Pages 197-208 | Received 09 Nov 2010, Accepted 14 Mar 2011, Published online: 13 Jun 2011

Citations (32)

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Khaled Seifeddine, Sofiane Amziane & Evelyne Toussaint. (2023) State of the art on the hydraulic properties of pervious concrete. Road Materials and Pavement Design 0:0, pages 1-36.
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Barnali Debnath & Partha Pratim Sarkar. (2020) Pervious concrete as an alternative pavement strategy: a state-of-the-art review. International Journal of Pavement Engineering 21:12, pages 1516-1531.
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Peter T. Weiss, Masoud Kayhanian, John S. Gulliver & Lev Khazanovich. (2019) Permeable pavement in northern North American urban areas: research review and knowledge gaps. International Journal of Pavement Engineering 20:2, pages 143-162.
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Articles from other publishers (29)

Mostafa Adresi, Alireza Yamani, Mojtaba Karimaei Tabarestani & Hamed Rooholamini. (2023) A comprehensive review on pervious concrete. Construction and Building Materials 407, pages 133308.
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Alalea Kia. (2023) Freeze-thaw durability of air-entrained high-strength clogging resistant permeable pavements. Construction and Building Materials 400, pages 132767.
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Lichun Chen, M. Tyler Ley, Rita M. Ghantous, W. Jason Weiss & Nicholas F. Materer. (2023) Measuring damaging Freeze-Thaw cycles in the field. Construction and Building Materials 387, pages 131660.
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Alalea Kia. 2023. Adapting the Built Environment for Climate Change. Adapting the Built Environment for Climate Change 297 326 .
Alalea Kia, Hong S. Wong & Christopher R. Cheeseman. (2022) Freeze–Thaw Durability of Conventional and Novel Permeable Pavement Replacement. Journal of Transportation Engineering, Part B: Pavements 148:4.
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Gersson F. B. Sandoval, Ricardo Pieralisi, Kathleen Dall Bello de Souza Risson, Andre Campos de Moura & Berenice M. Toralles. (2022) Clogging phenomenon in Pervious Concrete (PC): A systematic literature review. Journal of Cleaner Production 365, pages 132579.
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Junsong Wang, Qinglin Meng, Ya Zou, Qianlong Qi, Kanghao Tan, Mat Santamouris & Bao-Jie He. (2022) Performance synergism of pervious pavement on stormwater management and urban heat island mitigation: A review of its benefits, key parameters, and co-benefits approach. Water Research 221, pages 118755.
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San Luo, Tianwen Bai, Mingqin Guo, Yi Wei & Wenbo Ma. (2022) Impact of Freeze–Thaw Cycles on the Long-Term Performance of Concrete Pavement and Related Improvement Measures: A Review. Materials 15:13, pages 4568.
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Chao-Wei Tang, Chiu-Kuei Cheng & Lee-Woen Ean. (2022) Mix Design and Engineering Properties of Fiber-Reinforced Pervious Concrete Using Lightweight Aggregates. Applied Sciences 12:1, pages 524.
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Gokhan Kaplan, Aslinur Gulcan, Betul Cagdas & Oguzhan Yavuz Bayraktar. (2021) The impact of recycled coarse aggregates obtained from waste concretes on lightweight pervious concrete properties. Environmental Science and Pollution Research 28:14, pages 17369-17394.
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Hassan Bilal, Tiefeng Chen, Miao Ren, Xiaojian Gao & Anshuang Su. (2021) Influence of silica fume, metakaolin & SBR latex on strength and durability performance of pervious concrete. Construction and Building Materials 275, pages 122124.
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Rodrigo Garozi da Silva, Maria da Consolação Fonseca de Albuquerque, Marcelo Bortoletto, Felipe de Almeida Spósito, Aparecido Carlos Gonçalves & Marco Antonio de Morais Alcântara. (2021) The Effect of Periodic Maintenance on Pervious Concrete Pavements. Matéria (Rio de Janeiro) 26:4.
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Bahram M. Taheri, Amir M. Ramezanianpour, Saeed Sabokpa & Mohammad Gapele. (2021) Experimental evaluation of freeze-thaw durability of pervious concrete. Journal of Building Engineering 33, pages 101617.
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Gersson F.B. Sandoval, André Campos de Moura, Eduardo Inocente Jussiani, Avacir Casanova Andrello & Berenice Martins Toralles. (2020) Proposal of maintenance methodology for pervious concrete (PC) after the phenomenon of clogging. Construction and Building Materials 248, pages 118672.
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Jinhui Zhao, Zhen WangYanxia WangHaoran Jiang. (2020) Novel Backwashing Maintenance Method for Permeable Concrete Pavement: Two-Year Field Study. Journal of Irrigation and Drainage Engineering 146:4.
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A. Garcia, M. Aboufoul, F. Asamoah & D. Jing. (2019) Study the influence of the air void topology on porous asphalt clogging. Construction and Building Materials 227, pages 116791.
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Avishreshth SinghGaddam Sai JagadeeshPrasanna Venkatesh SampathKrishna Prapoorna Biligiri. (2019) Rational Approach for Characterizing In Situ Infiltration Parameters of Two-Layered Pervious Concrete Pavement Systems. Journal of Materials in Civil Engineering 31:11.
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Jun ZhangXingzhong Weng, Le Jiang, Bohan Yang, Junzhong Liu & Bo Qu. (2019) Durability of airport concrete pavement improved by four novel coatings. Advances in Cement Research 31:5, pages 214-224.
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Alessandra Bonicelli & Lorena Rico Pianeta. (2019) Performance and Applications of Pervious Concrete Pavement Material as an Overlay on Existent Concrete Slabs. IOP Conference Series: Materials Science and Engineering 471, pages 032061.
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Ning Xie, Michelle Akin & Xianming Shi. (2019) Permeable concrete pavements: A review of environmental benefits and durability. Journal of Cleaner Production 210, pages 1605-1621.
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Jun ZhangXingzhong WengLe JiangBohan YangJunzhong Liu. (2018) Frost Resistance of Concrete Reinforced Using Surface-Strengthening Materials in Airport Pavements. Journal of Materials in Civil Engineering 30:3.
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M. H. GiacomoniJohn Joseph. (2017) Multi-Objective Evolutionary Optimization and Monte Carlo Simulation for Placement of Low Impact Development in the Catchment Scale. Journal of Water Resources Planning and Management 143:9.
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Alalea Kia, Hong S. Wong & Christopher R. Cheeseman. (2017) Clogging in permeable concrete: A review. Journal of Environmental Management 193, pages 221-233.
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Mia S. M. Lund, John T. Kevern, Vernon R. Schaefer & Kurt K. Hansen. (2016) Mix design for improved strength and freeze-thaw durability of pervious concrete fill in Pearl-Chain Bridges. Materials and Structures 50:1.
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Hao Wu, Zhuo Liu, Beibei Sun & Jian Yin. (2016) Experimental investigation on freeze–thaw durability of Portland cement pervious concrete (PCPC). Construction and Building Materials 117, pages 63-71.
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M.S.M. Lund, K.K. Hansen, R. Truelsen & L. Johansen. (2016) Pervious concrete fill in Pearl-Chain Bridges: Using small-scale results in full-scale implementation. Construction and Building Materials 106, pages 404-414.
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Sonia Rahman, Andrew B. Northmore, Vimy Henderson & Susan L. Tighe. (2015) Developing A Framework for Low-Volume Road Implementation of Pervious Concrete Pavements. International Journal of Transportation Science and Technology 4:1, pages 77-91.
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Alessandra Bonicelli, Maurizio Crispino, Filippo Giustozzi & Melanie Shink. (2013) Laboratory Analysis for Investigating the Impact of Compaction on the Properties of Pervious Concrete Mixtures for Road Pavements. Advanced Materials Research 723, pages 409-419.
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W. Spencer Guthrie, Lisa R. Gurney, David O. Anderson, Anna C. Guthrie & Christopher Bedford. (2013) Comparison of Surface and Subsurface Winter Temperatures in Pervious and Conventional Concrete Pavements. Comparison of Surface and Subsurface Winter Temperatures in Pervious and Conventional Concrete Pavements.

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