Add to ORKGAbstract: Mufflers are widely used for exhaust noise attenuation in vehicles, machinery and other industrial elements. Modeling procedures for accurate performance prediction had led to the development of new methods for practical muffler components in design. Plane wave based models such as the transfer matrix method (TMM) can offer fast initial prototype solutions for muffler designers. In the present paper the authors present an overview of the principles of TMM for predicting the transmission loss (TL) of a muffler. The predicted results agreed in some limits with the experimental data published in literature. Key-Words: Muffler modelling, transfer matrix method
A muffler is a device to attenuate noise from the exhaust. The muffler performance determined by the...
A frequency-domain analytical model is presented for a reverse-flow, three-duct, open-end perforated...
Predicting the acoustics behavior of the exhaust muffler before a prototype model built can save the...
Abstract: Mufflers are widely used for exhaust noise attenuation in vehicles, machinery and other i...
Mufflers are widely used for exhaust noise attenuation in vehicles and machinery. Recent advances in...
The commercial automotive mufflers are generally of a complicated shape with multiply connected part...
Nowadays, the automotive industry is focused on weight and size reduction. Main advantage of this we...
This paper describes the design, development and validation of a muffler for reducing exhaust noise ...
Commercial automotive mufflers are often too complex to be broken into a cascade of onedimensional e...
The flow-reversal end chambers are used quite often in commercial automotive mufflers. The conventio...
The analysis of the acoustical systems can be carried out based on a number of different formalisms,...
Integration of side inlet and/or side outlet expansion chambers into the rest of the muffler system ...
n this article, transfer matrix parameters and the transmission loss (TL) have been obtained using a...
The paper deals with a method for the evaluation of exhaust muffers with mean flow. A new set of var...
A truly three-dimensional (3-D) finite element model for the analysis of a complex commercial automo...
A muffler is a device to attenuate noise from the exhaust. The muffler performance determined by the...
A frequency-domain analytical model is presented for a reverse-flow, three-duct, open-end perforated...
Predicting the acoustics behavior of the exhaust muffler before a prototype model built can save the...
Abstract: Mufflers are widely used for exhaust noise attenuation in vehicles, machinery and other i...
Mufflers are widely used for exhaust noise attenuation in vehicles and machinery. Recent advances in...
The commercial automotive mufflers are generally of a complicated shape with multiply connected part...
Nowadays, the automotive industry is focused on weight and size reduction. Main advantage of this we...
This paper describes the design, development and validation of a muffler for reducing exhaust noise ...
Commercial automotive mufflers are often too complex to be broken into a cascade of onedimensional e...
The flow-reversal end chambers are used quite often in commercial automotive mufflers. The conventio...
The analysis of the acoustical systems can be carried out based on a number of different formalisms,...
Integration of side inlet and/or side outlet expansion chambers into the rest of the muffler system ...
n this article, transfer matrix parameters and the transmission loss (TL) have been obtained using a...
The paper deals with a method for the evaluation of exhaust muffers with mean flow. A new set of var...
A truly three-dimensional (3-D) finite element model for the analysis of a complex commercial automo...
A muffler is a device to attenuate noise from the exhaust. The muffler performance determined by the...
A frequency-domain analytical model is presented for a reverse-flow, three-duct, open-end perforated...
Predicting the acoustics behavior of the exhaust muffler before a prototype model built can save the...