Add to ORKGWhile sound absorption is an acoustic related property reasonably well known and currently used to characterize low noise surfaces, damping is a property commonly used in other domains to define the energy dissipation of a material but rarely used to characterize this important mechanism in road pavements. This paper compares noise related properties such as damping and absorption of five road pavement surfaces. Two of which are innovative and therefore expected to be low noise since they have high voids content, incorporate fine grading aggregates and expanded clay. Other two incorporate rubber and waste high-density polyethylene giving them an elastic and stiff behaviour respectively. The fifth is a conventional material, asphalt concrete...
Normal incidence sound absorption coefficient of materials is usually calculated with the use of an...
The sound radiation caused by tyre/road noise can be reduced significantly by the use of porous road...
1999PDFTech ReportDeMoss, JeffreyLandsberger, B.J.McNerney, Michael T.University of Texas at Austin....
Sound absorption is a material property which contributes to reduce noise levels when sound propaga...
Acoustic absorption properties of materials have often been used to reduce the generation and propa...
This paper deals with materials not conventionally used in road layers but widely used in the buildi...
Highways traffic noise is a major issue all over the world. It is annoying to the residents who live...
This paper deals with materials not conventionally used in road layers but widely used in the buildi...
This report presents results of acoustical absorption measured on asphalt pavement samples. The test...
This report presents results of acoustical absorption measured on asphalt pavement samples. The test...
The increase of noise due to traffic particularly in urban areas has led road administrations to loo...
Traffic noise is the perpetual form of environmental pollution adversely affecting human health in u...
Nowadays rubberised concrete is used to support construction sustainability and contribute to a bett...
Layers with a very high content of rubber have shown to be very effective on noise abatement despit...
Noise levels due to road traffic have reached intolerable high levels in and around many urban areas...
Normal incidence sound absorption coefficient of materials is usually calculated with the use of an...
The sound radiation caused by tyre/road noise can be reduced significantly by the use of porous road...
1999PDFTech ReportDeMoss, JeffreyLandsberger, B.J.McNerney, Michael T.University of Texas at Austin....
Sound absorption is a material property which contributes to reduce noise levels when sound propaga...
Acoustic absorption properties of materials have often been used to reduce the generation and propa...
This paper deals with materials not conventionally used in road layers but widely used in the buildi...
Highways traffic noise is a major issue all over the world. It is annoying to the residents who live...
This paper deals with materials not conventionally used in road layers but widely used in the buildi...
This report presents results of acoustical absorption measured on asphalt pavement samples. The test...
This report presents results of acoustical absorption measured on asphalt pavement samples. The test...
The increase of noise due to traffic particularly in urban areas has led road administrations to loo...
Traffic noise is the perpetual form of environmental pollution adversely affecting human health in u...
Nowadays rubberised concrete is used to support construction sustainability and contribute to a bett...
Layers with a very high content of rubber have shown to be very effective on noise abatement despit...
Noise levels due to road traffic have reached intolerable high levels in and around many urban areas...
Normal incidence sound absorption coefficient of materials is usually calculated with the use of an...
The sound radiation caused by tyre/road noise can be reduced significantly by the use of porous road...
1999PDFTech ReportDeMoss, JeffreyLandsberger, B.J.McNerney, Michael T.University of Texas at Austin....