Research Status Summary and Development Trend Analysis of Porous Elastic Road Surface

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Abstract Low-noise pavement can efficiently reduce the tire-road noise and improve the driving experience of passengers and life quality of residents along the line. Porous elastic road surface (PERS) is a type of low-noise pavement with excellent performance. This study summarizes the research status and analyzes the development trend of PERS. The research results show that PERS has a large elastic deformation capacity and a large porosity, thereby achieving elastic vibration damping and porous sound absorption. The effect is an effective way to fundamentally solve the current traffic noise problem. However, the lack of relevant research in the design theory of composite material composition, noise reduction function evaluation test method, and index system is a major factor that restricts the breakthrough of PERS in technical difficulties and the achievement of large scale engineering applications.

Key words： road engineering porous elastic road surface status summary homogenous of tire-road elastic vibration damping porous sound absorption

Received: 06 May 2020

Corresponding Authors: ZHONG Ke E-mail: k.zhong@rioh.cn

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	ZHONG Ke
	QIN Yun-jie
	SUN Ming-zhi
	ZHANG Meng

Cite this article:

ZHONG Ke,QIN Yun-jie,SUN Ming-zhi, et al. Research Status Summary and Development Trend Analysis of Porous Elastic Road Surface[J]. Journal of Highway and Transportation Research and Development, 2020, 14(4): 23-28.

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http://journal10.magtechjournal.com/Jwk_gljtkj_en/EN/ OR http://journal10.magtechjournal.com/Jwk_gljtkj_en/EN/Y2020/V14/I4/23

[1] ZHANG Li-hong. Research on Generating Mechanism of Tire-pavement Noise[D]. Nanjing:Southeast University, 2008. (in Chinese)
[2] DING Yang-min. Noise Reduction Mechanism of Voids within Porous Asphalt Pavement[D]. Nanjing:Southeast University, 2013. (in Chinese)
[3] ZHANG Rong-rong, XUE Zhong-jun, WANG Chun-ming,et al. Research on Road Performance and Noise Reduction Effect of Rubber Open Graded Friction Course[J]. Highway, 2016(9):247-249. (in Chinese)
[4] JIA Chun-lin. Research on Functional Rubber Asphalt Paving Materials and Properties[D]. Chongqing:Chongqing Jiaotong University, 2012. (in Chinese)
[5] CAO Wei-dong, GE Jian-min, ZHOU Hai-sheng et al. Experimental Research and Application of Skeleton Dense-graded Noise Reduction Pavement[J]. Journal of Tongji University:Natural Science, 2006, 34(8):1026-1030. (in Chinese)
[6] ZHU Qi-tao. Research on Vibration and Noise Reduction Performance of Double Chip Seal with Rubber Particles[D]. Xi'an:Chang'an University, 2017. (Chinese)
[7] DING Y, HAO W. FEM-BEM Analysis of Tyre-pavement Noise on Porous Asphalt surfaces with Different Textures[J]. International Journal of Pavement Engineering, 2017(5):1-8.
[8] BILIGIRI K P, WAY G B. Noise-damping Characteristics of Different Pavement Surface wearing Courses[J]. Road Materials and Pavement Design, 2014, 15(4):925-941.
[9] CHU L, FWA T F, TAN K H. Evaluation of Wearing Course mix Designs on Sound Absorption Improvement of Porous Asphalt Pavement[J]. Construction and Building Materials, 2017, 141(3):402-409.
[10] LIAO G, SAKHAEIFAR M S, HEITZMAN M, et al. The Effects of Pavement Surface Characteristics on Tire/pavement Noise[J]. Applied Acoustics, 2014, 76:14-23.
[11] HONG S J, PARK S W, LEE S W. Tire-pavement Noise Prediction Using Asphalt Pavement Texture[J]. KSCE Journal of Civil Engineering, 2018, 22(9):3358-3362.
[12] IRALI F, KIVI A, TIGHE S, et al. Tire/Pavement Noise and Wearing Course Surface Characteristics of Experimental Canadian Road Pavement Sections[J]. Canadian Journal of Civil Engineering, 2015, 42(10):150731143635007.
[13] TORRENTI J M, TORRE F L. The Poroelastic Road Surface (PERS):Is the 10dB Reducing Pavement within Reach[M]. Oxford:John Wiley & Sons Materials and Infrastructures, 2016.
[14] SUN Ming-xin. Research on Properties of Polyurethane Porous Elastic Pavement Mixture[D]. Nanjing:Southeast University, 2016. (in Chinese)
[15] SANDBERG U. Road Traffic Noise-The Influence of the Road Surface and Its Characterization[J]. Applied Acoustics, 1987, 21(2):97-118.
[16] GOUBERT L, SANDBERG U. The PERSUADE Project:Developing the Concept of Poroelastic Road Surface into a Powerful Tool for Abating Traffic Noise[C]//39th International Congress on Noise Control Engineering 2010. Inter-noise and noise-con Congress and Conference Proceedings, Lisbon:Curran Associates, 2010.
[17] NILSSON N, ULMGREN N, SANDIN A. A Quiet Poroelastic Road Surface Manufactured in a Normal Asphalt Mixing Plant[J]. Journal of the Acoustical Society of America, 2008, 123(5):3390-3396.
[18] ONGEL A, HARVEY J. Pavement Characteristics Affecting the Frequency Content of Tire/pavement Noise[J]. Noise Control Engineering Journal, 2011, 58(6):563-571.
[19] LIU Y, YOU Z. Visualization and Simulation of Asphalt Concrete with Randomly Generated Three-dimensional Models[J]. Journal of Computing in Civil Engineering, 2009, 23(6):340-347.
[20] FREITAS E F, MARTINS F F, OLIVEIRA A, et al. Traffic Noise and Pavement Distresses:Modelling and Assessment of input Parameters Influence through Data Mining Techniques[J]. Applied Acoustics, 2018, 138:147-155.
[21] BILIGIRI K P, BJORN K, SAMUELSSON A. Understanding the Fundamental Material Properties of low-Noise Poroelastic Road Surfaces[J]. International Journal of Pavement Engineering, 2011(1):12-23.
[22] MUN S, CHO D S, CHOI T M U K. Influence of Pavement Surface Noise:The Korea Highway Corporation Test Road[J]. Canadian Journal of Civil Engineering, 2007, 34(7):809-816.
[23] BILIGIRI K P, BJORN K. Confined E^* Testing on Poroelastic Road Surface Mixtures[J]. Road Materials and Pavement Design, 2012, 13(2):385-395.
[24] EJSMONT J, MOTRYCZ G, STRYJEK P, et al. Risks Related to Car Fire on Innovative Poroelastic Road Surfaces-PERS[J]. Fire and Materials, 2015, 39(2):95-108.
[25] SUN Shuai. Applied Study on Eliminating Snow by Self-stress of Polyurethane Rubber Particle Mixture[D]. Tianjin:Hebei University of Technology, 2014. (in Chinese)
[26] XIAO Qing-yi, LIU Mei-tong, WANG Yu-bao, et al. Mechanism Analysis of New Pavement Material Stabilized by Polyurethane Stabilized Rubber Particles[J]. Journal of China & Foreign Highway, 2015,35(04):258-261. (in Chinese)
[27] TONG Ding-shuo. Study on Composition Design and Pavement Performance of Polyurethane Elastic Material[D]. Xi'an:Chang'an University, 2018. (in Chinese)
[28] ZHANG Heng, LUO Cheng-ping. Study on Deicing Performance of Polyurethane Stabilized Rubber Particle Mixture[J]. Journal of China & Foreign Highway, 2017, 37(2):250-253. (in Chinese)
[29] WANG Huo-ming, LI Ru-kai, WANG Xiu, et al. Strength and Road Performance for Porous Polyurethane Mixture[J]. China Journal of Highway and Transport, 2014,27(10):24-31. (in Chinese)
[30] LI Ru-kai, WANG Xiao-ming, WANG Huo-ming, et al. Research on adhesive Dosage of Porous Polyurethane Gravel Pavement[J]. Highway Engineering,2015,40(2):105-108,127. (in Chinese)