Experimental investigation of the leading parameters influencing the hydroplaning phenomenon

被引:7
作者
Hermange, C. [1 ]
Todoroff, V. [1 ]
Biesse, F. [1 ]
Le-Chenadec, Y. [1 ]
机构
[1] Manufacture Francaise Pneumat Michelin, Clermont Ferrand, France
关键词
Aquaplaning; vehicle-track interaction; vehicle safety; contact mechanics; WET; SIMULATIONS; TYRE;
D O I
10.1080/00423114.2021.1901941
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
Tire hydroplaning is a phenomenon that occurs when the tire is no longer able to evacuate water from the road due to excessive speed. A water layer will then be interposed between the tire and the road, reducing their contact surface and decreasing the tire''s ability to transmit forces. The purpose of this work is to analyse this loss of contact surface through the experimental point of view with real scale tests, which are perfectly suitable to understand the mechanisms. These tests consist in observing and then measuring the contact area of the tire with the ground in hydroplaning conditions through a measurement window. An investigation of the main factors engaged in hydroplaning situation is performed and the key parameters involved are identified. For a given tire, these surface losses are measured as a function of speed under different experimental conditions (inflation pressure, water level, tire wear, etc.). These results are then partially extended to the study of three other tires.
引用
收藏
页码:2375 / 2392
页数:18
相关论文
共 31 条
[1]  
[Anonymous], 2017, INT J VEH SYST MODEL
[2]  
Biesse, 2019, VDA TECHN K
[3]   Particle Image Velocimetry (PIV) measurements in a water film, application to a tire rolling through a puddle [J].
Cabut, Damien ;
Michard, Marc ;
Simoens, Serge ;
Todoroff, Violaine ;
Lemaitre, Jean ;
Hermange, Correntin ;
Le Chenadec, Yohan .
MECHANICS & INDUSTRY, 2020, 20 (08)
[4]   Numerical investigation of hydroplaning characteristics of three-dimensional patterned tire [J].
Cho, J. R. ;
Lee, H. W. ;
Sohn, J. S. ;
Kim, G. J. ;
Woo, J. S. .
EUROPEAN JOURNAL OF MECHANICS A-SOLIDS, 2006, 25 (06) :914-926
[5]   Relative Effectiveness of Grooves in Tire and Pavement for Reducing Vehicle Hydroplaning Risk [J].
Fwa, T. F. ;
Anupam, Kumar ;
Ong, G. P. .
TRANSPORTATION RESEARCH RECORD, 2010, (2155) :73-81
[6]   Effectiveness of Tire-Tread Patterns in Reducing the Risk of Hydroplaning [J].
Fwa, T. F. ;
Kumar, Santosh S. ;
Anupam, Kumar ;
Ong, G. P. .
TRANSPORTATION RESEARCH RECORD, 2009, (2094) :91-102
[7]  
Gallaway, 1979, FED HIGHW ADM
[8]  
Gengenbach W., 1968, AUTOMOBILTECHNISCHE, V70, P310
[9]  
Grogger H., 1997, TIRE SCI TECHNOLOGY, V25, P265
[10]  
Herling D., 2006, SAE TECHNICAL PAPER