Add to ORKGThis thesis is concerned with manufacturing and acoustical characterisation of polymeric fibres. The fibres studied in this work were made from a range of polymers and their material properties varied considerably. This work enabled us to develop a better understanding of the applicability of various empirical and theoretical models for the prediction of acoustical and non-acoustical properties of polymeric fibres. It was shown that these materials can be tailored for various noise control solutions in vehicles whilst meeting a range of design criteria. In an attempt to improve the acoustical performance of traditional acoustic absorbers thin fibrous membranes were electrospun, characterised and modelled. These membranes presented fibre...
Natural materials are becoming a valid alternative to traditional synthetic ones for sound absorptio...
Sound absorbers including porous materials are used widely for noise control. The most widely-exploi...
he acoustic modelling of fibrous materials is fundamental for the design of a sound-absorbing acoust...
Electrospinning lab-scale experimental set-up was developed for manufacturing polymeric nanofiber co...
The thin nanofibrous layer has different properties in the field of sound absorption in comparison w...
Sound absorbers including porous materials are used widely for noise control. The most widely-exploi...
In recent years nanofibers have been used in the field of applied acoustics to improve the acoustic ...
A new empirical model has been developed by the authors to predict the flow resistivity, acoustic im...
Excessive noise has adverse effects on human health. Therefore, it is necessary to find innovative m...
YesThis study investigates the acoustic performance of materials made using various amounts of bio-b...
Compared to the traditional synthetic fibrous materials, natural fibres represent sustainable soluti...
International audienceThe characterisation of fibrous materials is an important part of the process ...
Modelling of the acoustical properties of polyester fibre materials is usually based on variations ...
[EN] Acoustic comfort is a basic human need. One of the adverse effects of noise is its interference...
Current developments on natural fibre as sound absorption purpose have attracted researcher’s attent...
Natural materials are becoming a valid alternative to traditional synthetic ones for sound absorptio...
Sound absorbers including porous materials are used widely for noise control. The most widely-exploi...
he acoustic modelling of fibrous materials is fundamental for the design of a sound-absorbing acoust...
Electrospinning lab-scale experimental set-up was developed for manufacturing polymeric nanofiber co...
The thin nanofibrous layer has different properties in the field of sound absorption in comparison w...
Sound absorbers including porous materials are used widely for noise control. The most widely-exploi...
In recent years nanofibers have been used in the field of applied acoustics to improve the acoustic ...
A new empirical model has been developed by the authors to predict the flow resistivity, acoustic im...
Excessive noise has adverse effects on human health. Therefore, it is necessary to find innovative m...
YesThis study investigates the acoustic performance of materials made using various amounts of bio-b...
Compared to the traditional synthetic fibrous materials, natural fibres represent sustainable soluti...
International audienceThe characterisation of fibrous materials is an important part of the process ...
Modelling of the acoustical properties of polyester fibre materials is usually based on variations ...
[EN] Acoustic comfort is a basic human need. One of the adverse effects of noise is its interference...
Current developments on natural fibre as sound absorption purpose have attracted researcher’s attent...
Natural materials are becoming a valid alternative to traditional synthetic ones for sound absorptio...
Sound absorbers including porous materials are used widely for noise control. The most widely-exploi...
he acoustic modelling of fibrous materials is fundamental for the design of a sound-absorbing acoust...