Evidence of Performance Test Report No. 15-003655-PR01 (PB-A01-02-en-01) Client Product Designation Performance-relevant product details Overall dimensions (W x H) Special features Alüminyum San. Tic. Ltd. Sti. Ihlamurkuyu Mah. Ates Cad. Hatipler Sk. No:2 Ümraniye - Istanbul Turkey Vertical double sash window System designation: Duowin Material: Aluminium profiles with thermal break 698 mm x 1,404 mm Vapour pressure equalisation of insulating glass unit must be secured. Basis EN 14351-1:2006+A1:2010 Test standard/s: EN 1026:2000-06 EN 1027:2000-06 EN 12211:2000-06 Correspond/s to the national standard/s (e.g. DIN EN) Representation Results Ve-Prü-2087-en 01.04.2012 Air permeability according to EN 12207:1999-11 ift Rosenheim 16.12.2015 Class 2 Watertightness according to EN 12208:1999-11 Class 5A Resistance to wind load according to EN 12210:1999-11/AC:2002-08 Class C4 / B4 Dirk Köberle, Dipl.-Ing. (FH) Deputy Head of Testing Department Building Components Herbert Hageneder, Dipl.-Ing. (FH) Operating Testing Officer Construction Product Testing Instructions for use The results obtained can be used by the manufacturer for preparing the Declaration of Performance in accordance with the Construction Products Regulation 305/2011/EU. The provisions of the applicable product standard have to be observed. Validity The data and results refer solely to the tested and described specimen. Classification remains valid as long as the product and the above basis remain unchanged. The results can be extrapolated under the manufacturer's own liability subject to observance of the relevant specifications set out by the applicable product standard. This test/evaluation does not allow any statement to be made on any further characteristics regarding performance and quality of the construction presented; in particular the effects of weathering and ageing were not taken into account. Notes on publication The ift-guidance Sheet "Advertising with ift test documents" applies. The cover sheet can be used as an abstract. The report contains a total of 25 pages.
Evidence of Performance Page 2 of 14 1. Object 1.1 Description of test specimen Product Manufacturer Date of manufacture October 2015 System Type of opening / Opening directions Frame material Vertical double sash window FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti Duowin Vertical sliding Aluminium profiles with thermal break Overall frame dimensions (W x H) 698 mm x 1,404 mm Overall sash dimensions (W x H) Sash weight Frame member Frame joint Supplementary profile / frame joint Sash member Frame joint Supplementary profile / frame joint Glazing bead Rebate design Rebate drainage Pressure equalisation Rebate seal at bottom, sash Horizontal at bottom Vertical Rebate seal at top, sash Horizontal at top 620 mm x 690 mm 14,1 kg GP 301, GP 302, GP 303, further details are given in drawings butt-jointed, bolted and sealed using GP 324 (plastic part) and resilient sealant GP 310, GP 311, cover profile, lateral in the field of top sash, from top corner to central meeting joint GP 323, cover profile, lateral, butt jointed and sealed using resiliant sealant GP 304, further details are given in drawings mitred, compressed and bonded weather bar 40 E 86, bolted, horizontal at bottom sealed using resilient sealant cover profile GP 305, GP 306 horizontal at central meeting joint, clipped onto sash cover profile GP 307, horizontal, clipped onto top sash GP 309, butt-jointed and clamped 2 slots of 5 mm x 30 mm inside rebate, to outside front 2 slots 5 mm x 30 mm, with cover caps 40D13 none pressure equalisation 2x brush seal with intermediate banner, GP 321, manufacturer FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti, buttjointed 1x gasket, GP 326, EPDM, manufacturer FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti, butt-jointed 2x brush seal with intermediate banner, GP 321, manufacturer FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti, buttjointed 2x brush seal with intermediate banner, GP 321, manufacturer FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti, buttjointed
Evidence of Performance Page 3 of 14 Vertical Central meeting joint Horizontal Additional sealing Infill panel Type Configuration Incorporation of infill panel Glazing gasket External Internal Vapour pressure equalisation Hardware Type / Manufacturer Hinges / Bearings Number of locks Maximum locking distance Position of locks 1x gasket, GP 326, EPDM, manufacturer FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti, butt jointed 3x brush seal with intermediate banner, GP 321, manufacturer FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti, buttjointed 2x brush seal with intermediate banner, GP 321, manufacturer FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti, buttjointed 2x gasket, GP 325, EPDM, manufacturer FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti, butt jointed each side sealing profile GP 322, EPDM, manufacturer FYT Mühendislik İnşaat ve Alüminyum San.Tic.Ltd.Şti, Lateral, bonded to frame Insulating glass unit from inside to outside 8 mm / cavity 12 mm / 4 mm gasket 40 D 02, EPDM, Manufacturer Çuhadaroğlu, mitred, additional sealed with elastic sealant gasket 40 D 03, EPDM, Manufacturer Çuhadaroğlu, butt-jointed none vapour pressure equalisation Note: The vapour pressure equalisation of the insulating glass unit must be secured. Tilt latch UK 472, sash lock KL800, keep 30459, travel restrictor PE401N, pivot bar UK166, sash lift 7761, coil balance FG14115, Caldwell Hardware (UK) Limited 2 pivot bar per sash 2 locks per sash, 1 sash lock at central meeting joint 690 mm neutral The description is based on information provided by the client and inspection of the test specimen by the ift (item designations / numbers as well as material specifications were provided by the client unless stated "ift-checked ). Test specimen representations are documented in the Annex "Representation of product/test specimen. The design details were examined solely on the basis of the characteristics / performance to be classified. The drawings are based on unchanged documentation provided by the client unless stated otherwise. The photographs were taken by the ift Rosenheim unless stated otherwise.
Evidence of Performance Page 4 of 14 1.2 Sampling The below sampling data were provided to the ift: Sampling by: Date: 01.12.2015 Verification: ift-pk-number: Alüminyum San. Tic. Ltd. Sti. Ümraniye - Istanbul (Turkey) A sampling report has been provided to the ift. 15-003655-PK01 2. Procedure 2.1 Basis*) referring to methods Testing EN 1026:2000-06 Windows and doors - Air permeability - Test method EN 1027:2000-06 Windows and doors - Watertightness - Test method EN 12211:2000-06 Windows and doors - Resistance to wind load - Test method Classification / Evaluation EN 12207:1999-11 Windows and doors - Air permeability - Classification EN 12208:1999-11 Windows and doors - Watertightness - Classification EN 12210:1999-11/AC:2002-08 Windows and doors - Resistance to wind load - Classification *) and the equivalent national versions, e.g. DIN EN
Evidence of Performance Page 5 of 14 2.2 Brief description of procedure Air permeability - EN 1026 Air permeability is tested in accordance with EN 1026 and conducted in steps at negative pressure and positive pressure up to the maximum test pressure difference. Leakages of the test set-up are made visible using artificially generated fog and sealed using permanently resilient sealant. The test specimen is exposed to three pressure pulses pmax + 10 % or at least 500 Pa. This is followed by measurement of air permeability for the respective pressure steps. + Pa 3 if required 0 1 Time (sec.) - Pa opening and closing Illustration Test sequence for air permeability
Evidence of Performance Page 6 of 14 Resistance to wind load - Deflection and alternating negative/positive pressures - EN 12211 Resistance to wind load is tested in accordance with EN 12211 and conducted in steps at negative pressure and positive pressure up to the test pressure p 1. The test specimen is exposed to three pressure pulses p 1 + 10 %. This is followed by determination of the frontal deflection of test specimen for each pressure step when exposed to positive test pressure p 1 and negative test pressure p 1. Then the test specimen is subjected to 50 cycles including negative and positive pressures of ± p 2 = p 1-50 %. Positive pressure P 1+10% 30±10 s 50 Cycles P 1 7±3 s P 2 60±5 s 0 -P 2 Stepwise or continuous increase in pressure, max. 100 Pa/s 7±3 s Time -P 1 P 1+10% 30±10 s 7±3 s Negative pressure Illustration Test sequence for resistance to wind load
Evidence of Performance Page 7 of 14 Air permeability Repeat test - EN 1026 Following resistance to wind load test for p 1 (deflection) and p 2 (alternating positive/negative pressure), air permeability must not exceed by more than 20% the upper limit of the specified class as set out by EN 12207. Watertightness - EN 1027 Watertightness is tested in accordance with EN 1027 up to the maximum test pressure difference. The external face of the test specimen is subjected to constant spraying of water by an upper row of nozzles at a flow rate of approx. 2 l/min per nozzle while increments of positive test pressure are applied at regular intervals. For test specimen exceeding 2.50 m in overall height, additional rows of nozzles are fixed at vertical intervals at 1.5 m below the top nozzle line. The water flow rate of the additional nozzle rows is approx. 1 l/min per nozzle. P ( Pa ) 750 600 500 450 400 300 200 150 100 50 0 Illustration 5 10 15 20 25 30 35 40 45 50 55 Test sequence for watertightness Time (min)
Evidence of Performance Page 8 of 14 Resistance to wind load Safety test - EN 1211 The wind resistance test (safety test) is conducted at negative pressure and positive pressure in accordance with EN 12211 up to test pressure p 3 = p 1 + 50 %. Positive pressure 7±3 s P 3 7±3 s 7±3 s 0 Time -P 3 Negative pressure Illustration Test sequence for safety test
Evidence of Performance Page 9 of 14 3. Detailed results
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Annex 1: Representation of product/test specimen Page 1 of 11 Evidence of Performance Client Drawing 1 Test specimen, vertical and horizontal section
Annex 1: Representation of product/test specimen Page 2 of 11 Evidence of Performance Client Drawing 2 Test specimen, seen from inside
Annex 1: Representation of product/test specimen Page 3 of 11 Evidence of Performance Client Drawing 3 Test specimen, seen from outside
Annex 1: Representation of product/test specimen Page 4 of 11 Evidence of Performance Client Drawing 4 Vertical section A-A at top
Annex 1: Representation of product/test specimen Page 5 of 11 Evidence of Performance Client Drawing 5 Vertical section A-A at central meeting joint
Annex 1: Representation of product/test specimen Page 6 of 11 Evidence of Performance Client Drawing 6 Vertical section A-A at bottom
Annex 1: Representation of product/test specimen Page 7 of 11 Evidence of Performance Client Drawing 7 Horizontal section B-B, left side
Annex 1: Representation of product/test specimen Page 8 of 11 Evidence of Performance Client Drawing 8 Horizontal section B-B, right side
Annex 1: Representation of product/test specimen Page 9 of 11 Evidence of Performance Client Photo 1 Test specimen on test rig window closed Photo2 Rebate drainage, seen from inside Photo 3 Rebate drainage, seen from outside Photo 4 Frame joint at bottom Photo 5 Frame joint at top
Annex 1: Representation of product/test specimen Page 10 of 11 Evidence of Performance Client Photo 6 Weather bar Photo 7 Additional sealing on central meeting joint Photo 8 Brush seal Photo 9 Cover profile GP 311 / GP 310 Photo 11 Pivot bar, sash Photo 12 Pivot bar, frame
Annex 1: Representation of product/test specimen Page 11 of 11 Evidence of Performance Client Photo 13 Pivot bar, detail Photo 14 Locking device