Add to ORKGHigh surface area particles have drawn attention in the context of noise control due to their good sound absorption performance at low frequencies, which is an advantage compared with more traditional materials. That observation suggests that there is a good potential to use these particles in various scenarios, especially where low frequency noise is the main concern. To facilitate their application, composite materials are formed by dispersing particles within a fiber matrix, thus giving more flexibility in positioning those particles. In this work, a hybrid model that combines a model for limp porous materials and a model of high surface area particles is proposed to describe the acoustic performance of such composites. Two-microphone st...
Noise pollution impacts the well-being of millions of people on a daily basis and can lead to seriou...
The locally resonant material is a composite made with statistically distributed locally resonant un...
A method for the capture of small particles (tens of microns in diameter) from a continuously flowin...
Porous materials have been widely used in the field of noise control. The non-acoustical parameters ...
he acoustic modelling of fibrous materials is fundamental for the design of a sound-absorbing acoust...
Low frequency noise has been a challenge to noise control strategies for a long time due to its rela...
The main goal of the project is study how could the sound absorption properties of a material be imp...
Composite structures can be designed with specific parameters for efficient sound absorption in spec...
In this work, theoretical models have been developed for predicting the acoustical properties of fib...
Polymeric sound absorbers can be produced through electrospinning, a process which allows to fabrica...
International audienceA variety of performance demands are increasingly being placed on sound absorb...
[[abstract]]Made of polymer, metal, and polymer fibers of low melting point, a porous laminated comp...
A variety of particles were mixed with polyurethane-based matrix to develop functional composites. A...
Current acoustic modeling methods face problems such as complex processes or inaccurate sound absorp...
The mathematical models for predicting the sound absorption coefficients (SACs) of porous samples ar...
Noise pollution impacts the well-being of millions of people on a daily basis and can lead to seriou...
The locally resonant material is a composite made with statistically distributed locally resonant un...
A method for the capture of small particles (tens of microns in diameter) from a continuously flowin...
Porous materials have been widely used in the field of noise control. The non-acoustical parameters ...
he acoustic modelling of fibrous materials is fundamental for the design of a sound-absorbing acoust...
Low frequency noise has been a challenge to noise control strategies for a long time due to its rela...
The main goal of the project is study how could the sound absorption properties of a material be imp...
Composite structures can be designed with specific parameters for efficient sound absorption in spec...
In this work, theoretical models have been developed for predicting the acoustical properties of fib...
Polymeric sound absorbers can be produced through electrospinning, a process which allows to fabrica...
International audienceA variety of performance demands are increasingly being placed on sound absorb...
[[abstract]]Made of polymer, metal, and polymer fibers of low melting point, a porous laminated comp...
A variety of particles were mixed with polyurethane-based matrix to develop functional composites. A...
Current acoustic modeling methods face problems such as complex processes or inaccurate sound absorp...
The mathematical models for predicting the sound absorption coefficients (SACs) of porous samples ar...
Noise pollution impacts the well-being of millions of people on a daily basis and can lead to seriou...
The locally resonant material is a composite made with statistically distributed locally resonant un...
A method for the capture of small particles (tens of microns in diameter) from a continuously flowin...