Safe, Quiet and Durable Pavement Surfaces

Safe, Quiet and Durable Pavement Surfaces

Show other versions (1)

Skidding contributes to up to 35% of wet pavement accidents. Pavement surface friction therefore is an important component of highway safety. The skid resistance also varies seasonally and reduces over time due to surface polishing. These leave the pavement in a state of increased risk of skidding a...

Full description

Bibliographic Details
Main Author: Ahammed, Mohammad Alauddin
Language:en
Published: 2009
Subjects:
Surface characteristics
Surface texture
Surface friction
Skid resistance
Seasonal skid resistance
Long term skid resistance
Traffic noise
Tire-pavement noise
Sound absorption
Pavement management
Civil Engineering
Online Access:http://hdl.handle.net/10012/4290
id ndltd-WATERLOO-oai-uwspace.uwaterloo.ca-10012-4290
record_format oai_dc
spelling ndltd-WATERLOO-oai-uwspace.uwaterloo.ca-10012-42902013-01-08T18:52:09ZAhammed, Mohammad Alauddin2009-03-06T20:09:08Z2009-03-06T20:09:08Z2009-03-06T20:09:08Z2009http://hdl.handle.net/10012/4290Skidding contributes to up to 35% of wet pavement accidents. Pavement surface friction therefore is an important component of highway safety. The skid resistance also varies seasonally and reduces over time due to surface polishing. These leave the pavement in a state of increased risk of skidding accidents. An adequate surface friction that accommodates the seasonal and long term variations is essential for safety over the pavement surface service life. The resistance to skidding, however, depends on surface microtexture and macrotexture. Alternatively, increased texture aimed at increased and durable surface friction may affect the noise generated on the road. In fact, traffic noise is a growing problem throughout the world. Noise barriers, traditionally used for noise reduction, are expensive and inefficient in some cases. As the pavement surface characteristics play a key role in noise generation and propagation, it provides a window for noise reduction by altering the pavement surface. The challenge, however, is to provide a smooth, quiet, long-lasting, and economic pavement with adequate and durable surface friction. This research has been directed to address this challenge and to provide a realistic guideline. The tire-pavement noise, sound absorption, and skid resistance performances of various flexible and rigid pavement surfaces have been examined using the field and laboratory test data. Models for the prediction of pavement skid resistance including the seasonal and long term variations have also been developed correlating the influencing factors. A value engineering approach has been proposed to accommodate the construction and maintenance costs, longevity, smoothness, safety and noise in the selection of pavement surfaces.enSurface characteristicsSurface textureSurface frictionSkid resistanceSeasonal skid resistanceLong term skid resistanceTraffic noiseTire-pavement noiseSound absorptionPavement managementSafe, Quiet and Durable Pavement SurfacesThesis or DissertationCivil and Environmental EngineeringDoctor of PhilosophyCivil Engineering
collection NDLTD
language en
sources NDLTD
topic Surface characteristics
Surface texture
Surface friction
Skid resistance
Seasonal skid resistance
Long term skid resistance
Traffic noise
Tire-pavement noise
Sound absorption
Pavement management
Civil Engineering
spellingShingle Surface characteristics
Surface texture
Surface friction
Skid resistance
Seasonal skid resistance
Long term skid resistance
Traffic noise
Tire-pavement noise
Sound absorption
Pavement management
Civil Engineering
Ahammed, Mohammad Alauddin
Safe, Quiet and Durable Pavement Surfaces
description Skidding contributes to up to 35% of wet pavement accidents. Pavement surface friction therefore is an important component of highway safety. The skid resistance also varies seasonally and reduces over time due to surface polishing. These leave the pavement in a state of increased risk of skidding accidents. An adequate surface friction that accommodates the seasonal and long term variations is essential for safety over the pavement surface service life. The resistance to skidding, however, depends on surface microtexture and macrotexture. Alternatively, increased texture aimed at increased and durable surface friction may affect the noise generated on the road. In fact, traffic noise is a growing problem throughout the world. Noise barriers, traditionally used for noise reduction, are expensive and inefficient in some cases. As the pavement surface characteristics play a key role in noise generation and propagation, it provides a window for noise reduction by altering the pavement surface. The challenge, however, is to provide a smooth, quiet, long-lasting, and economic pavement with adequate and durable surface friction. This research has been directed to address this challenge and to provide a realistic guideline. The tire-pavement noise, sound absorption, and skid resistance performances of various flexible and rigid pavement surfaces have been examined using the field and laboratory test data. Models for the prediction of pavement skid resistance including the seasonal and long term variations have also been developed correlating the influencing factors. A value engineering approach has been proposed to accommodate the construction and maintenance costs, longevity, smoothness, safety and noise in the selection of pavement surfaces.
author Ahammed, Mohammad Alauddin
author_facet Ahammed, Mohammad Alauddin
author_sort Ahammed, Mohammad Alauddin
title Safe, Quiet and Durable Pavement Surfaces
title_short Safe, Quiet and Durable Pavement Surfaces
title_full Safe, Quiet and Durable Pavement Surfaces
title_fullStr Safe, Quiet and Durable Pavement Surfaces
title_full_unstemmed Safe, Quiet and Durable Pavement Surfaces
title_sort safe, quiet and durable pavement surfaces
publishDate 2009
url http://hdl.handle.net/10012/4290
work_keys_str_mv AT ahammedmohammadalauddin safequietanddurablepavementsurfaces
_version_ 1716573288175501312

Similar Items