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Acoustics for Timber based Lightweight Buildings and Elements
Acoustics for Timber based Lightweight Buildings and Elements
Acoustics for Timber based Lightweight Buildings and Elements
TECNALIA
56 % 30 %
14 %
Private Funding
Competitive Public Funding
Non - Competitive Public Funding
116 M€income
Acoustics for Timber based Lightweight Buildings and Elements
PRODUCT DEVELOPMENT AND BUILDINGS DESIGN
Product Development:elements and junctions.
Acoustic Modeling of Timber based buildings:prediction of in situ acoustic insulation.
Acoustic design of timber based buildings.
Laboratory Tests of timber based elements.
Product Development:elements and junctions.
Acoustic Modeling of Timber based buildings:prediction of in situ acoustic insulation.
Acoustic design of timber based buildings.
Laboratory Tests of timber based elements.
Acoustics for Timber based Lightweight Buildings and Elements
PRODUCT DEVELOPMENT
• Industrialised products.
• Lightweight products.
• Multi-layer systems.
• Modular systems 2D-3D.
• Junctions.
Acoustics for Timber based Lightweight Buildings and Elements
The acoustic performances of buildings made of traditional heavy structures and elements can be predicted from the performances of elements involved using standard series 12354.
When prefabricated or lightweight construction solutions are used in buildings, standard methods to design and predict the acoustic performance of buildings from the performances of elements EN 12354-1 and -2, are no longer valid.
In consequence, further work is needed related to the laboratory characterization of building systems, the behavior of junctions between prefabricated and/or lightweight components, the use of resilient materials, etc.
Acoustics in prefabricated or lightweight construction
Acoustics for Timber based Lightweight Buildings and Elements
PHASE 1. Acoustic design and optimization of the product
Prediction and simulation of acoustic characteristics of the product.
Input data:
physic-acoustic properties of the different materials
Checking:
Laboratory measurements in acoustic chambers.
Checking:
Laboratory measurements in acoustic chambers.
DEVELOPMENT FROM PRODUCTS TO BUILDINGS
20
25
30
35
40
45
50
55
60
65
70
75
80
85
50 63 80 100
125
160
200
250
315
400
500
630
800
1000
1250
1600
2000
2500
3150
4000
5000
Freq. (Hz)L
n (
dB
)
Acoustics for Timber based Lightweight Buildings and Elements
PHASE 2. Acoustic design and optimization of the constructive system
Prediction of acoustic characteristics of the constructive element inside the building (interaction with the rest of constructive elements
Checking:
In situ measurements.
Checking:
In situ measurements.
4
1
Measured Dvij - T JUNCTION - Façade - Building 17
0
10
20
30
40
50
60
70
50
63
80
10
0
12
5
16
0
20
0
25
0
31
5
40
0
50
0
63
0
80
0
10
00
12
50
16
00
20
00
25
00
31
50
40
00
50
00
Freq Hz
Dvi
j dB
Dv 1 --> 4 Dv 4 --> 1
Average
3
4
1
4
1
Measured Dvij - T JUNCTION - Façade - Building 17
0
10
20
30
40
50
60
70
50
63
80
10
0
12
5
16
0
20
0
25
0
31
5
40
0
50
0
63
0
80
0
10
00
12
50
16
00
20
00
25
00
31
50
40
00
50
00
Freq Hz
Dvi
j dB
Dv 1 --> 4 Dv 4 --> 1
Average
3
4
1
MEDIDAS IN SITU DEL AISLAMIENTO AL RUIDO AÉREO ENTRE RECINTOS
Cliente: Proyectos y Obras Marcos S.L. Fecha del ensayo:
Descripción e identificación del elemento de construcción y disposición del ensayo :
Volumen del recinto emisor : 28 m3
Volumen del recinto receptor : 28 m3
Frecuencia Dn,T
Hz (1/3 oct)
dB
50
63
80
100 35,3125 41,1160 37,5200 37,1250 38,4315 43,2400 45,5500 45,1630 44,6800 46,5
1000 48,81250 52,01600 57,12000 56,02500 57,63150 62,74000 65,15000 67,2
* Influencia del ruido de fondo
Valoración según la Norma UNE-EN ISO 717-1 :1997
DnT,w(C;Ctr)= 49 (-1 ; -4) dB C100-5000 = 0 dB Ctr100-5000 = -4 dB
Evaluación basada en medidas in situ obtenidas mediante un método de ingeniería+
Nº. de informe: IN003333-PO Marcos-A1 Laboratorio: TECNALIA
Fecha: 02/05/2011 Firma:
ELEMENTO SEPARADOR: Forjado separador entre los dos dormitorios.
19/04/2011
DIFERENCIA DE NIVELES ESTANDARIZADANORMA UNE-EN ISO 140-4:1999
EMISOR: Dormitorio 2- Planta 1. Fuente sonora situada en dos posiciones. Diez posiciones de micrófono.
RECEPTOR: Dormitorio 2 - Planta 2. Diez posiciones de micrófono. Tiempo de reverberación medido con dos posiciones de fuente y seis posiciones de micrófono.
Anexo 1. Página 1 de 1
Rango de frecuencias según los valores de
la curva de referencia (UNE-EN ISO 717-1)
20,0
30,0
40,0
50,0
60,0
70,0
80,0
63 125
250
500
1000
2000
4000
Frecuencia (Hz)
Dif
ere
nc
ia d
e n
ive
les
es
tan
da
riza
da
, Dn
T,
dB
MEDIDAS IN SITU DEL AISLAMIENTO AL RUIDO AÉREO ENTRE RECINTOS
Cliente: Proyectos y Obras Marcos S.L. Fecha del ensayo:
Descripción e identificación del elemento de construcción y disposición del ensayo :
Volumen del recinto emisor : 28 m3
Volumen del recinto receptor : 28 m3
Frecuencia Dn,T
Hz (1/3 oct)
dB
50
63
80
100 35,3125 41,1160 37,5200 37,1250 38,4315 43,2400 45,5500 45,1630 44,6800 46,5
1000 48,81250 52,01600 57,12000 56,02500 57,63150 62,74000 65,15000 67,2
* Influencia del ruido de fondo
Valoración según la Norma UNE-EN ISO 717-1 :1997
DnT,w(C;Ctr)= 49 (-1 ; -4) dB C100-5000 = 0 dB Ctr100-5000 = -4 dB
Evaluación basada en medidas in situ obtenidas mediante un método de ingeniería+
Nº. de informe: IN003333-PO Marcos-A1 Laboratorio: TECNALIA
Fecha: 02/05/2011 Firma:
ELEMENTO SEPARADOR: Forjado separador entre los dos dormitorios.
19/04/2011
DIFERENCIA DE NIVELES ESTANDARIZADANORMA UNE-EN ISO 140-4:1999
EMISOR: Dormitorio 2- Planta 1. Fuente sonora situada en dos posiciones. Diez posiciones de micrófono.
RECEPTOR: Dormitorio 2 - Planta 2. Diez posiciones de micrófono. Tiempo de reverberación medido con dos posiciones de fuente y seis posiciones de micrófono.
Anexo 1. Página 1 de 1
Rango de frecuencias según los valores de
la curva de referencia (UNE-EN ISO 717-1)
20,0
30,0
40,0
50,0
60,0
70,0
80,0
63 125
250
500
1000
2000
4000
Frecuencia (Hz)
Dif
ere
nc
ia d
e n
ive
les
es
tan
da
riza
da
, Dn
T,
dB
DEVELOPMENT FROM PRODUCTS TO BUILDINGS
Input data:
acoustic-vibration properties of the joints among constructive elements.
Acoustics for Timber based Lightweight Buildings and Elements
BALI (Building Acoustics for Living) led by FCCFinanced by Science and Innovation Ministry, 2009-2011
Acoustic performance of timber based floors
REFERENCES OF PROJECTS
Foto 4
Acoustics for Timber based Lightweight Buildings and Elements
Cost Action FP0702: Acoustics for Timber based Lightweight Buildings and Elements (2008-2012)Spanish representative in Management Committee
WG1: Prediction methods for sound and vibration performance of lightweight buildings
WG2: Measurement methods for sound and vibration
WG3: Comfort assessment of sound and vibration
WG4: Acoustic design
REFERENCES OF PROJECTS
Acoustics for Timber based Lightweight Buildings and Elements
EGOSOINU: Industrialised constructive system (2D and 3D) for timber based multistory dwellings. Egoin (2011-2014).EUREKA Project “ECO-HOUSE”.
REFERENCES OF PROJECTS
Spain
France
Acoustics for Timber based Lightweight Buildings and Elements
ECMA: Industrialised and modular timber based constructive system (2D 3D). GAITEK Project (2011-2013)
REFERENCES OF PROJECTS
Acoustics for Timber based Lightweight Buildings and Elements
Acu-Low. Development of technologies for acoustic and vibration design at low frequencies in lightweight construction. 2014
REFERENCES OF PROJECTS
Acoustics for Timber based Lightweight Buildings and Elements
Silent Timber Build – Silent Timber Build for the European Market. WoodWisdom-Net Project2013-2016
REFERENCES OF PROJECTS
WG1: Prediction tools, low, medium and high frequencies
WG2: Validation of prediction tools and constructions
WG3: European Timber Sound Insulation Atlas
WG4: Dissemination and Exploitation
Sweden France Germany Austria Norway Switzerland Spain Belgium Finland
Project members and cooperators from:
Acoustics for Timber based Lightweight Buildings and Elements
Building Quality Control Laboratory of Basque Government in Vitoria
FACILITIES
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