Test report No.: 1412/270

Similar documents
Test Report. Nr dated Sound Absorption Coefficient in the Reverberation Room. Lammengatan 2 SE Lammhult Sweden

ASTM E 90: Laboratory Measurement of Airborne Sound Transmission of Building Partitions and Elements

STANDARD DEVIATIONS IN FIELD MEASUREMENTS OF IMPACT SOUND INSULATION. Mikko Kylliäinen

Airborne Sound Insulation

E R0 ACOUSTICAL PERFORMANCE TEST REPORT ASTM E90. Rendered to: TREX COMPANY, LLC. Series/Model: Trex Seclusion

This document is a preview generated by EVS

LABORATORY MEASUREMENTS ON THE EFFICIENCY OF SOUND REDUCING FURNITURE PADS OF TYPE SILENT SOCKS

Acoustic performance of dwellings and specifics for lightweight constructions Professor Eddy Gerretsen

The Role of Acoustics in Curtain Wall Design:

Lightweight Partition Design for Residential and Commercial Buildings

VIPAC ENGINEERS & SCIENTISTS

SOUND TRANSMISSION CLASS TEST REPORT Series/Model: T-DR1 Teutonic Outswing Vinyl Entrance Door

SOUND TRANSMISSION CLASS TEST REPORT Series/Model: T-DR2 Teutonic Outswing Vinyl Entrance Door

LIGHTWEIGHT SCREEDS MADE OF CONCRETE AND RECYCLED POLYMERS: ACOUSTIC, THERMAL, MECHANICAL AND CHEMICAL CHARACTERIZATION

An innovative thermally activated light-weight steel deck system numerical investigations and practical tests

SOUND TRANSMISSION CLASS TEST REPORT Series/Model: VL-WDW11 VistaLuxe Awning

Tools for building acoustics design and experimental performances

SC-30 INTEGRATING SOUND LEVEL METER REAL TIME FREQUENCY ANALYZER

Measuring Sound Insulation using Deconvolution Techniques

Technical Data Sheet W13. Edition Knauf Fire Walls

CASE STUDY. Sarakasi Theatre Nairobi, Kenya Room Acoustical Measurements and Modelling. Africa Room Acoustics DIRAC and ODEON

Active noise control in practice: transformer station

White Paper IK code: Impact protection in line with the IEC standard. By Sven Schnautz

Important safety notice: corrective measure to a medical device on the market MEDUMAT Transport: modification to device software

Introduction. Facade Fire Test on PUR External Thermal Insulation Composite System (ETICS)

VIRTUAL SPACE 4D PROJECT: THE ROOM ACOUSTICAL TOOL. J. Keränen, P. Larm, V. Hongisto

The Radon Calibration Laboratory at the Federal Office for Radiation Protection (BfS)

Dynamic sound source for simulating the Lombard effect in room acoustic modeling software

Acoustics of indoor sports halls and gymnasia

Floor systems - key elements for sustainable multi-storey buildings

Testing laboratory HVAC. Test report No.: HP e

Schindler 3300 / Schindler 5300 Information on noise and vibration.

Linear Parameter Measurement (LPM)

Squash Court Design general points

Relationship between Sound Pressure and Sound Power Levels

ÖNORM EN The European Standard EN has the status of an Austrian Standard. Edition: Standards group B

Sound Power Measurement

ASTM E 90 SOUND TRANSMISSION LOSS TEST REPORT. Rendered to: TUBELITE, INC. SERIES/MODEL: T TYPE: Two-Lite Storefront

Outer Diameter 23 φ mm Face side Dimension 20.1 φ mm. Baffle Opening. Normal 0.5 Watts Maximum 1.0 Watts Sine Wave.

INTER-NOISE DECEMBER 2006 HONOLULU, HAWAII, USA

TETRIS High Impedance Active Probe. Features:

fulfils all requirements for medium protection of the criteria catalogue The appendix is part of the certificate and consists of 4 pages.

Acoustical Design for Concert Hall in the Science and Art Centre of Xiamen University

Acoustic Porous Materials and Their Characterisation

SPEECH INTELLIGIBILITY and Fire Alarm Voice Communication Systems

Under-Screed Impact Sound Insulation

Sound Level Meters Nor131 & Nor132

TETRIS 1000 / High Impedance Active Probe Order-No: Features:

Test report P 7013-E. InoPaz H2O. Pazkar LTD. Alon Tavor Industrial Zone AFULA / Israel. J. Magner Dipl.-Ing. N. Machill.

ENVIRONMENTAL INFORMATION APR 1200 products are made from glass mineral wool, one of the most environmentally friendly insulants available.

FACTORS AFFECTING ENERGY CONSUMPTION OF BUILDINGS

Mineral fibreglass insulation

ACOUSTIC DESIGN - ROOMS FOR SPEECH

Lecture Halls - Room Acoustics and Sound Reinforcement

European technical approval

Characterization of acoustics in open offices - four case studies

Neopor. Impact-sound Insulation. BASF Plastics key to your success. Expandable Polystyrene (EPS)

Soundbook. The 2nd generation of our Soundbook acoustics analyzer - now based on the new 24 bit Apollo hardware platform

Installation information. METTLER TOLEDO MultiRange DW150 / DW150T wall scale

Acoustic Terms, Definitions and General Information

Annex of the certificate (Page 1/6) Accreditation Scope

Always. Reliable. Tight. Wall sleeves Versatile solutions for building entries. cablepipebuildingentry+

pinta ACOUSTIC PANEL [1/7]

OWAplan1. The seamless acoustic ceiling. Pure acoustics. Pure design.

COOLING AND HEATING OF BUILDINGS BY ACTIVATING THEIR THERMAL MASS WITH EMBEDDED HYDRONIC PIPE SYSTEMS -

Acoustic design with wall acoustic solutions

Acoustic design of schools: performance standards. From 2003 to 2014: a brief guide to the changes in BB 93. by Jack Harvie-Clark, 9th January 2015

BELMONDO rubber floorings for horses

109 Adopted:

Long-Term Hygrothermal Performance of Green Roofs

Fundamentals of Acoustics & Practical HVAC Design Considerations. Demir Doken Acoustic Engineer

Engineering Method of Sound Power Determination for Marine Engines

HS-Steel-Classic. Curing chambers for the concrete block industry in a proven steel version

ASTM E 90 SOUND TRANSMISSION LOSS TEST REPORT. Rendered to: MGM INDUSTRIES SERIES/MODEL: TYPE: Single Hung Window

Basic Concepts of Sound. Contents: Definitions db Conversion Sound Fields db ± db

Noise. CIH Review PDC March 2012

STR-600 Plate Dryer. 1. What it s meant for?

Manual Analysis Software AFD 1201

Coupling Forced Convection in Air Gaps with Heat and Moisture Transfer inside Constructions

Leeds Metropolitan University - Design and Build of new Acoustic Laboratory Suite

Climate chamber with illumination

CERTIFICATE. on Product Conformity (QAL 1) Number of Certificate: Gaschromategraph GC 5000 BTX Type FID for Benzene

Acoustical Design Guidelines for HVAC Systems in Schools

Controlling the Transmission of Impact Sound through Floors

Acoustical proprieties of light brick walls and its effects on flanking transmission

Sound Attenuation INTRODUCTION

Using Equotip Hardness Test Blocks Abstract 1. Introduction 2. Verification of Leeb hardness testers according to standards

fufils all requirements for high protection of the criteria catalogue The appendix is part of the certificate and consists of 4 pages.

CLASSIFICATION OF REACTION TO FIRE PERFORMANCE IN ACCORDANCE WITH EN : 2007

Retrofit structural insulated panels (SIPs) increase sound transmission loss of existing single family houses impacted by highway noise

Optiffuser. High-performance, high bandwidth lightweight 1D diffuser.

Mechanical vibration. Overview. Terminology. Classification according to effect. Classification according to vibration type.

Module 3.7. Thermal bridging

ACOUSTICAL MODEL FOR HYBRID NVH SIMULATION OF ELECTRICAL VEHICLES

Mass Loaded Vinyl A review of the performance and cost in acoustical applications

Sustainable construction criteria to evaluate the thermal indoor climate - further development of the BNB assessment tool and practical implementation

Transcription:

Schallschutzprüfstelle VPMA Zertifiziert Güteprüfungen Eignungsprüfungen ABP Staatlich anerkannte Sachverständige für den Schallschutz und Wärmeschutz IKBau NRW Blower Door Messungen Gebäudethermografie Energieberatung EnEVNachweise Wohngebäude EnEVNachweise NichtWohngebäude Geschäftsführer: Dr.Ing. Lothar Siebel Dipl.Ing. Bernd Gebing SteuerNr. 201/5992/3795 USt.IdNr. DE123595587 Aachen, 14.01.2015 Test report No.: 1412/270 Reduction of impact sound pressure according to ISO 101403 : 201012 Test stand measurements to determine the reduction of impact sound pressure with floor coverings on a solid ceiling. Product name: Applicant: unifloor B.V. Munsterstraat 24 NL 7418 EV Deventer Number of pages: 5 pages and 2 supplement Büros: Charlottenburger Allee 41, 52068 Aachen Labor: Hauptstr. 133, 52474 Alsdorf Tel. +49(0)241/970220 Fax +49(0)241/572956 info@swagmbh.de www.swagmbh.de Handelsregister Amtsgericht Aachen HRB 2708 Sparkasse Aachen BLZ 390 500 00 Konto 110 111 94 IBAN DE 03 3905 00 00 00 11 194 BIC(Swift) AA CS DE 33

1 Test Reduction of impact sound pressure according to ISO 101403 : 201012 Test stand measurements to determine the reduction of impact sound pressure with floor coverings on a solid ceiling 1.1 Product name 1.2 Test object, category and assembly Sample taking by: Installed through: applicant employees of SWA GmbH Test object / Floor covering Category according to ISO 10140 resilient floor covering textile floor covering X solid floor covering on an impact sound insulation / separating layer screed on an impact sound insulation / separating layer I II X Installation type loose laid glued 1.3 Test assembly (from top to bottom) Thickness: Material: Arearelated mass 10 mm ³ Prefab tapis 2 x 4 mm ³ MDF 6,5 mm ³ supertrans 4 mm ³ cocofloor Arearelated mass of example: Total thickness of example: ² arearelated mass determined by employees of SWA GmbH ³ information of applicant page 2 of 5

1.4 Measurement execution Measurement of impact sound level: Reverberation period measurement: with 4 fixed microphone positions by 2 tapping machine positions each (The third octave single results were energetically averaged) with 4 fixed microphone positions by 2 loud speaker positions each (The third octave single results were energetically averaged) Corrections: not any background noise corrections irrelevant airborne noise corrections irrelevant 1.5 Annotations Damages caused by tapping machine influences could not be determined on the example. 1.6 Test stand description Test rooms: Laboratory of SWA GmbH Sending room: Receiving room: 4,29 m x 4,51 m x 2,76 m; V = 53,40 m³ (with diffusers) 4,29 m x 4,51 m x 3,05 m; V = 59,01 m³ (with diffusers) Reference ceiling: 4,29 m x 4,51 m; S = 19,35 m² 14 cm concrete solid plate ceiling with an arearelated mass m 322 kg/m² Flanking walls: lime sand brick walls without light weighting facing shells with a medium arearelated mass of m 330 kg/m² 1.7 Measuring systems Real time analyzer: CESVA INSTRUMENTS, TYP: SC310, SN: T234359* Microphone: CESVA INSTRUMENTS, TYP: C130, SN: 11861* Microphone amplifier: CESVA INSTRUMENTS, TYP: PA13, SN: 49649* Calibrating device: CESVA INSTRUMENTS, TYP: CB006, SN 49649* Loudspeaker: Dodecahedron, CESVA INSTRUMENTS* Tapping machine: NORSONIC, type 211, SN: 502* (tapping machine with 3 feeds and 5 hammers according to ISO 10140) *) last examination by PTB (PhysikalischTechnische Bundesanstalt, Brunswick, Germany) in Feb. 2013 page 3 of 5

2 Analysis The impact sound levels generated by the standardized tapping machine are measured in the receiving room under a solid ceiling without and with a textile floor covering. From the measured values the reduction of impact sound pressure is calculated as follows: ΔL = L n,0 L n in db L n,0 = Impact sound level without floor covering in db L n = Impact sound level with floor covering in db To determine the weighted impact sound reduction the applicable reference curve is shifted in 1 db steps into the mess curve so that the sum of the most unfavorable deviations correspondents as close as possible to the value of 32 db without exceeding this value. The linear impact sound level ΔL lin of importance and you can calculate after the following equation: =,,, +,,,, +, = +,,, the calculated weighted norm impact sound level of the cover blanket with the blanket edition to be checked is.,,, 78 db, investigates,, to 4.3.1 DIN EN ISO 7172 : 2013., Spectrum customization value. Spectrum customization value.,, 2.1 Applied standards Standard: (Issue)* Title DIN EN ISO 101401:201012 Akustik Messung der Schalldämmung von Bauteilen im Prüfstand Teil 1: Anwendungsregeln für bestimmte Produkte DIN EN ISO 101402 :201012 Akustik Messung der Schalldämmung von Bauteilen im Prüfstand Teil 2: Messung der Luftschalldämmung DIN EN ISO 101403:201012 Akustik Messung der Schalldämmung von Bauteilen im Prüfstand Teil 3: Messung der Trittschalldämmung DIN EN ISO 101404:201012 Akustik Messung der Schalldämmung von Bauteilen im Prüfstand Teil 4: Messverfahren und Anforderungen DIN EN ISO 101405:201012 Akustik Messung der Schalldämmung von Bauteilen im Prüfstand Teil 5: Anforderungen an Prüfstände und Prüfeinrichtungen DIN EN ISO 7171:201306 Akustik Bewertung der Schalldämmung in Gebäuden und von Bauteilen Teil 1: Luftschalldämmung DIN EN ISO 7172:201306 Akustik Bewertung der Schalldämmung in Gebäuden und von Bauteilen Teil 2: Trittschalldämmung * German issue. page 4 of 5

3 Test Results 3.1 Reference floor Weighted standard impact sound level of the reference floor: L n,0,w : 74 db C l,0 : 11 db 3.2 Floor covering (standard test according to ISO 10140) ΔL w = 22 db ΔL lin = 10 db C l,δ = 12 db C l,r = 1 db C l,r,502500 = 3 db 3.3 Floor covering (weighed down with ca. 23 kg/m², according to the TÜV Rheinland regulations/2014ev) ΔL w = 22 db ΔL lin = 10 db C l,δ = 12 db C l,r = 1 db C l,r,502500 = 4 db The results are based on tests, which were effected with on artifical source of sound under laboratory conditions. (standard procedure); compare measuring results in supplement 1 of this report. (Dr.Ing. A. Siebel) page 5 of 5

Test results Supplement 1 Measurement of impact sound insulation according to ISO 101403 : 201012 Laboratory measurement of sound insulation of building elements. Product name: Category: II according to ISO 10140, see annotation Construktion: (from top to bottom) 10 mm Prefab tapis 2 x 4mm MDF 6,5 mm supertrans 4mm cocofloor Reference floor: solid concrete floor installed by: applicant Date of test: annotations: 08.12.2014 climate in the source room in the receiving room air temperature: 19 C 19 C humidity: 56% 58% Frequency L n,0 ΔL f thirdoctave thirdoctave [Hz] [db] [db] 50 56,5 5,0 63 62,7 1,5 80 57,4 0,8 100 57,2 0,6 125 67,5 0,4 160 62,6 2,2 200 64,1 5,8 250 67,1 13,0 315 65,3 19,1 400 64,7 25,5 500 65 31,6 630 65,3 36,8 800 66,4 40,7 1000 67,8 45,2 1250 67,7 49,3 1600 68,2 53,7 2000 68,8 56,4 2500 68,6 58,6 3150 67,9 58,6 4000 66,9 58,2 5000 64,4 56,1 *Airborne noise correction for the measured value Calculation according to ISO 7172:201306 ΔL w = 22 db ΔL in = 10 db Impact sound reduction ΔL in db 60,0 50,0 40,0 30,0 20,0 10,0 0,0 63 125 250 500 1000 2000 4000 Frequency f in Hz C l,δ = 12 db C l,r = 1 db C l,r,502500 = 3 db The results are based on tests, which were effected with on artifical source of sound under laboratory conditions. (standard procedure) Test report no.: 1412/270 SWA Schall und Wärmemessstelle Aachen GmbH Aachen, 14.01.2015 (Dr.Ing. A. Siebel)

Test results Supplement 2 Measurement of impact sound insulation according to ISO 101403 : 201012 Laboratory measurement of sound insulation of building elements. Product name: Category: II according to ISO 10140, see annotation Construktion: (from top to bottom) 10 mm Prefab tapis 2 x 4mm MDF 6,5 mm supertrans 4mm cocofloor Reference floor: solid concrete floor installed by: applicant Date of test: annotations: 08.12.2014 weighted down with ca. 23 kg/m², according to the TÜV Rheinland regulations/2014ev climate in the source room in the receiving room air temperature: 19 C 19 C humidity: 56% 58% Frequency L n,0 ΔL f thirdoctave thirdoctave [Hz] [db] [db] 50 56,5 2,1 63 62,7 1,5 80 57,4 0,7 100 57,2 0,0 125 67,5 0,5 160 62,6 1,8 200 64,1 5,2 250 67,1 11,8 315 65,3 18,3 400 64,7 24,6 500 65 30,7 630 65,3 36,0 800 66,4 40,0 1000 67,8 44,6 1250 67,7 49,0 1600 68,2 53,6 2000 68,8 56,2 2500 68,6 58,3 3150 67,9 58,4 4000 66,9 58,2 5000 64,4 57,2 *Airborne noise correction for the measured value Calculation according to ISO 7172:201306 ΔL w = 22 db ΔL in = 10 db Impact sound reduction ΔL in db 60,0 50,0 40,0 30,0 20,0 10,0 0,0 63 125 250 500 1000 2000 4000 Frequency f in Hz C l,δ = 12 db C l,r = 1 db C l,r,502500 = 4 db The results are based on tests, which were effected with on artifical source of sound under laboratory conditions. (standard procedure) Test report no.: 1412/270 SWA Schall und Wärmemessstelle Aachen GmbH Aachen, 14.01.2015 (Dr.Ing. A. Siebel)

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information