Modelling the sound transmission across junctions of building components by energy influence coefficients

Christoph Winter; Martin Buchschmid; Simon Mecking; Christian Weineisen; Gerhard Müller; Ulrich Schanda

Modelling the sound transmission across junctions of building components by energy influence coefficients

Christoph Winter
, Martin Buchschmid
, Simon Mecking
, Christian Weineisen
, Gerhard Müller
, Ulrich Schanda

Chair of Structural Mechanics

Technical University of Munich
Hochschule Rosenheim, University of Applied Sciences

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Scopus citations

Abstract

A trend towards lightweight structures, e.g. timber structures, is noticeable in civil engineering, which implies the necessity to predict vibroacoustic characteristics like the transmission of structure-borne sound in order to fulfil requirements regarding serviceability. This contribution focuses on the investigation of junctions of building components e.g. between wall and ceiling. It is part of a joint research project with the aim to catalogue the coupling for a variety of junctions. The resulting database may serve to predict the transmission of structure-borne sound which is typically carried out either using a Finite Element (FEM) approach, suitable for the low frequency range, or by means of energy methods like the Statistical Energy Analysis (SEA) for the high frequency range. Therefore the so-called mid frequency gap emerges, which is examined and attempted to be closed. In this context SEA-averaging techniques are applied in the postprocessing of FEM calculations to obtain an adapted "SEAlike" approach. By varying the subsystems to be excited it is possible to determine Energy Influence Coefficients (EIC), which describe the specific energy content of the different subsystems with respect to the input power. Using this hybrid approach vibroacoustic predictions can be performed also in the mid frequency range. Inverting the EIC-matrix Coupling Loss Factors as well as Damping Loss Factors of the different subsystems can be calculated if the subsystem definition fulfils the SEA-requirements. The application of the method in combination to a classical SEA calculation and to laboratory measurements is presented.

Original language	English
Title of host publication	Proceedings of the 9th International Conference on Structural Dynamics, EURODYN 2014
Editors	A. Cunha, P. Ribeiro, E. Caetano, G. Muller
Publisher	European Association for Structural Dynamics
Pages	3265-3271
Number of pages	7
ISBN (Electronic)	9789727521654
State	Published - 2014
Event	9th International Conference on Structural Dynamics, EURODYN 2014 - Porto, Portugal Duration: 30 Jun 2014 → 2 Jul 2014

Publication series

Name	Proceedings of the International Conference on Structural Dynamic , EURODYN
Volume	2014-January
ISSN (Print)	2311-9020

Conference

Conference	9th International Conference on Structural Dynamics, EURODYN 2014
Country/Territory	Portugal
City	Porto
Period	30/06/14 → 2/07/14

Keywords

Energy flow analysis
Energy influence coefficients
Finite element method
Lightweight timber structures
Power injection method
Prediction of sound transmission
Statistical energy analysis
Vibroacoustics

Cite this

Winter, C., Buchschmid, M., Mecking, S., Weineisen, C., Müller, G., & Schanda, U. (2014). Modelling the sound transmission across junctions of building components by energy influence coefficients. In A. Cunha, P. Ribeiro, E. Caetano, & G. Muller (Eds.), Proceedings of the 9th International Conference on Structural Dynamics, EURODYN 2014 (pp. 3265-3271). (Proceedings of the International Conference on Structural Dynamic , EURODYN; Vol. 2014-January). European Association for Structural Dynamics.

Winter, Christoph ; Buchschmid, Martin ; Mecking, Simon et al. / Modelling the sound transmission across junctions of building components by energy influence coefficients. Proceedings of the 9th International Conference on Structural Dynamics, EURODYN 2014. editor / A. Cunha ; P. Ribeiro ; E. Caetano ; G. Muller. European Association for Structural Dynamics, 2014. pp. 3265-3271 (Proceedings of the International Conference on Structural Dynamic , EURODYN).

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title = "Modelling the sound transmission across junctions of building components by energy influence coefficients",

abstract = "A trend towards lightweight structures, e.g. timber structures, is noticeable in civil engineering, which implies the necessity to predict vibroacoustic characteristics like the transmission of structure-borne sound in order to fulfil requirements regarding serviceability. This contribution focuses on the investigation of junctions of building components e.g. between wall and ceiling. It is part of a joint research project with the aim to catalogue the coupling for a variety of junctions. The resulting database may serve to predict the transmission of structure-borne sound which is typically carried out either using a Finite Element (FEM) approach, suitable for the low frequency range, or by means of energy methods like the Statistical Energy Analysis (SEA) for the high frequency range. Therefore the so-called mid frequency gap emerges, which is examined and attempted to be closed. In this context SEA-averaging techniques are applied in the postprocessing of FEM calculations to obtain an adapted {"}SEAlike{"} approach. By varying the subsystems to be excited it is possible to determine Energy Influence Coefficients (EIC), which describe the specific energy content of the different subsystems with respect to the input power. Using this hybrid approach vibroacoustic predictions can be performed also in the mid frequency range. Inverting the EIC-matrix Coupling Loss Factors as well as Damping Loss Factors of the different subsystems can be calculated if the subsystem definition fulfils the SEA-requirements. The application of the method in combination to a classical SEA calculation and to laboratory measurements is presented.",

keywords = "Energy flow analysis, Energy influence coefficients, Finite element method, Lightweight timber structures, Power injection method, Prediction of sound transmission, Statistical energy analysis, Vibroacoustics",

author = "Christoph Winter and Martin Buchschmid and Simon Mecking and Christian Weineisen and Gerhard M{\"u}ller and Ulrich Schanda",

year = "2014",

language = "English",

series = "Proceedings of the International Conference on Structural Dynamic , EURODYN",

publisher = "European Association for Structural Dynamics",

pages = "3265--3271",

editor = "A. Cunha and P. Ribeiro and E. Caetano and G. Muller",

booktitle = "Proceedings of the 9th International Conference on Structural Dynamics, EURODYN 2014",

note = "9th International Conference on Structural Dynamics, EURODYN 2014 ; Conference date: 30-06-2014 Through 02-07-2014",

}

Winter, C, Buchschmid, M, Mecking, S, Weineisen, C, Müller, G & Schanda, U 2014, Modelling the sound transmission across junctions of building components by energy influence coefficients. in A Cunha, P Ribeiro, E Caetano & G Muller (eds), Proceedings of the 9th International Conference on Structural Dynamics, EURODYN 2014. Proceedings of the International Conference on Structural Dynamic , EURODYN, vol. 2014-January, European Association for Structural Dynamics, pp. 3265-3271, 9th International Conference on Structural Dynamics, EURODYN 2014, Porto, Portugal, 30/06/14.

Modelling the sound transmission across junctions of building components by energy influence coefficients. / Winter, Christoph; Buchschmid, Martin; Mecking, Simon et al.
Proceedings of the 9th International Conference on Structural Dynamics, EURODYN 2014. ed. / A. Cunha; P. Ribeiro; E. Caetano; G. Muller. European Association for Structural Dynamics, 2014. p. 3265-3271 (Proceedings of the International Conference on Structural Dynamic , EURODYN; Vol. 2014-January).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Modelling the sound transmission across junctions of building components by energy influence coefficients

AU - Winter, Christoph

AU - Buchschmid, Martin

AU - Mecking, Simon

AU - Weineisen, Christian

AU - Müller, Gerhard

AU - Schanda, Ulrich

PY - 2014

Y1 - 2014

N2 - A trend towards lightweight structures, e.g. timber structures, is noticeable in civil engineering, which implies the necessity to predict vibroacoustic characteristics like the transmission of structure-borne sound in order to fulfil requirements regarding serviceability. This contribution focuses on the investigation of junctions of building components e.g. between wall and ceiling. It is part of a joint research project with the aim to catalogue the coupling for a variety of junctions. The resulting database may serve to predict the transmission of structure-borne sound which is typically carried out either using a Finite Element (FEM) approach, suitable for the low frequency range, or by means of energy methods like the Statistical Energy Analysis (SEA) for the high frequency range. Therefore the so-called mid frequency gap emerges, which is examined and attempted to be closed. In this context SEA-averaging techniques are applied in the postprocessing of FEM calculations to obtain an adapted "SEAlike" approach. By varying the subsystems to be excited it is possible to determine Energy Influence Coefficients (EIC), which describe the specific energy content of the different subsystems with respect to the input power. Using this hybrid approach vibroacoustic predictions can be performed also in the mid frequency range. Inverting the EIC-matrix Coupling Loss Factors as well as Damping Loss Factors of the different subsystems can be calculated if the subsystem definition fulfils the SEA-requirements. The application of the method in combination to a classical SEA calculation and to laboratory measurements is presented.

AB - A trend towards lightweight structures, e.g. timber structures, is noticeable in civil engineering, which implies the necessity to predict vibroacoustic characteristics like the transmission of structure-borne sound in order to fulfil requirements regarding serviceability. This contribution focuses on the investigation of junctions of building components e.g. between wall and ceiling. It is part of a joint research project with the aim to catalogue the coupling for a variety of junctions. The resulting database may serve to predict the transmission of structure-borne sound which is typically carried out either using a Finite Element (FEM) approach, suitable for the low frequency range, or by means of energy methods like the Statistical Energy Analysis (SEA) for the high frequency range. Therefore the so-called mid frequency gap emerges, which is examined and attempted to be closed. In this context SEA-averaging techniques are applied in the postprocessing of FEM calculations to obtain an adapted "SEAlike" approach. By varying the subsystems to be excited it is possible to determine Energy Influence Coefficients (EIC), which describe the specific energy content of the different subsystems with respect to the input power. Using this hybrid approach vibroacoustic predictions can be performed also in the mid frequency range. Inverting the EIC-matrix Coupling Loss Factors as well as Damping Loss Factors of the different subsystems can be calculated if the subsystem definition fulfils the SEA-requirements. The application of the method in combination to a classical SEA calculation and to laboratory measurements is presented.

KW - Energy flow analysis

KW - Energy influence coefficients

KW - Finite element method

KW - Lightweight timber structures

KW - Power injection method

KW - Prediction of sound transmission

KW - Statistical energy analysis

KW - Vibroacoustics

UR - https://www.scopus.com/pages/publications/84994477240

M3 - Conference contribution

AN - SCOPUS:84994477240

T3 - Proceedings of the International Conference on Structural Dynamic , EURODYN

SP - 3265

EP - 3271

BT - Proceedings of the 9th International Conference on Structural Dynamics, EURODYN 2014

A2 - Cunha, A.

A2 - Ribeiro, P.

A2 - Caetano, E.

A2 - Muller, G.

PB - European Association for Structural Dynamics

T2 - 9th International Conference on Structural Dynamics, EURODYN 2014

Y2 - 30 June 2014 through 2 July 2014

ER -

Winter C, Buchschmid M, Mecking S, Weineisen C, Müller G, Schanda U. Modelling the sound transmission across junctions of building components by energy influence coefficients. In Cunha A, Ribeiro P, Caetano E, Muller G, editors, Proceedings of the 9th International Conference on Structural Dynamics, EURODYN 2014. European Association for Structural Dynamics. 2014. p. 3265-3271. (Proceedings of the International Conference on Structural Dynamic , EURODYN).

Modelling the sound transmission across junctions of building components by energy influence coefficients

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