Evidence of Performance Calculation of thermal transmittance Test Report No. 17-000539-PR02 (PB-K20-06-en-01) Ve-PB0-2203-en (01.10.2012) Basis *) EN ISO 10077-2:2012-02 SG 06-verpflichtend NB-CPD/SG06/11/083 2011-09 *) Correspond/s to the national standard/s (e.g. DIN EN) Representation Test specimen PK01 24 15 Sight line = 103mm S67976 PL-00360301 220.11001.01 S60460 PL-00360301 S67510 PL-00360202 220.15001.01 61 210.67223.03 37 75 30 67 73 200.11157.01 202.11151.01 313.10030.00 Polyethylene foam 313.05025.00 Polyethylene foam Further drawings see annex. Instructions for use The results obtained can be used as evidence in accordance with the above basis. Validity The data and results given relate solely to the tested and de- scribed specimen. This test does not allow any statement to be made on further characteristics of the present structure regarding performance and quality. Notes on publication The ift-Guidance Sheet "Condi- tions and Guidance for the Use of ift Test Documents" applies. The document may only be pub- lished in full. Contents The report contains a total of 9 page/s and annexe (11 pages). Client ALUMIL S.A. Industrial Area 61100 Kilkis Greece Product Thermal break metal profiles Profile combinations: Casement-Frame, Frame, Mullion, Casement-Casement overlap Designation S67 Advanced Performance-relevant product details Material Aluminium alloys; Surface treatment powder coat- ed or painted; View width B in mm 61 to 206; Thermal break; Material Polyamide 6.6 with 25% glass fibre; dis- tance of metal shells d in mm 25; Inlay foam in glazing re- bate / to structure (back of the frame) ; Material “NOMATEC XPE Profiles”; Thermal conductivity in W/(mK) 0.038; Casement; Item number S67976 / S67972; width x thickness in mm 73 to 96 x 75; Frame; Item number S67510 / S67814 / S67906; width x thickness in mm 61 to 113 x 67; Mullion; Item number S67562 / S67888 / 67570 width x thickness in mm 76 to 206 x 67; Casement overlap; Item number S67879; width x thickness in mm 67 x 72; Replace- ment panel; Edge cover in mm 15; Thickness in mm 24 Special features -/- Results Calculation of thermal transmittance according to EN ISO 10077-2:2012-02 U f = 1.5 - 2.2 W/(m²K) ift Rosenheim 29.05.2017 Konrad Huber, Dipl.-Ing. (FH) Till Stübben, Dipl.-Ing. (FH) Head of Testing Department Operating Testing Officer Building Physics Building Physics
20
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Evidence of Performance Calculation of thermal transmittance
Test Report
No. 17-000539-PR02 (PB-K20-06-en-01)
Ve
-PB
0-2
203
-en
(0
1.1
0.2
012
)
Basis *)
EN ISO 10077-2:2012-02
SG 06-verpflichtend NB-CPD/SG06/11/083 2011-09
*) Correspond/s to the national standard/s (e.g. DIN EN)
Representation
Test specimen PK01
24
15
Sight line = 103mm
S67976
PL-00360301
220.11001.01
S60460
PL-00360301
S67510
PL-00360202
220.15001.01
61
210.67223.03
37
75
30
67
73
200.11157.01
202.11151.01
313.10030.00
Polyethylene foam
31
3.0
50
25
.00
Po
lye
thyle
ne
fo
am
Further drawings see annex.
Instructions for use
The results obtained can be used as evidence in accordance with
the above basis.
Validity
The data and results given relate
solely to the tested and de-scribed specimen. This test does not allow any statement to be
made on further characteristics of the present structure regarding performance and quality.
Notes on publication
The ift-Guidance Sheet "Condi-tions and Guidance for the Use
of ift Test Documents" applies. The document may only be pub-lished in full.
Contents
The report contains a total of 9 page/s and annexe (11 pages).
Client ALUMIL S.A. Industrial Area 61100 Kilkis Greece
Material Aluminium alloys; Surface treatment powder coat-ed or painted; View width B in mm 61 to 206; Thermal break; Material Polyamide 6.6 with 25% glass fibre; dis-
tance of metal shells d in mm 25; Inlay foam in glazing re-bate / to structure (back of the frame) ; Material
“NOMATEC XPE Profiles”; Thermal conductivity in W/(mK) 0.038; Casement; Item number S67976 / S67972; width x
thickness in mm 73 to 96 x 75; Frame; Item number S67510 / S67814 / S67906; width x thickness in mm 61 to 113 x 67; Mullion; Item number S67562 / S67888 / 67570 width
x thickness in mm 76 to 206 x 67; Casement overlap; Item
number S67879; width x thickness in mm 67 x 72; Replace-ment panel; Edge cover in mm 15; Thickness in mm 24
Special features -/-
Results
Calculation of thermal transmittance according to EN ISO 10077-2:2012-02
Uf = 1.5 - 2.2 W/(m²K)
ift Rosenheim
29.05.2017
Konrad Huber, Dipl.-Ing. (FH) Till Stübben, Dipl.-Ing. (FH) Head of Testing Department Operating Testing Officer
Building Physics Building Physics
Evidence of Performance Page 2 of 9
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Test specimen PK01 PK02 PK03
Profile combination Casement-
Frame
Casement-
Frame
Casement-
Frame
View B width in mm 103 146 178
Sum b in mm 44 87 118
Ratio b/B 0.43 0.60 0.67
Sealing system 1 x external
1 x centre
1 x internal
1 x external
1 x centre
1 x internal
1 x external
1 x centre
1 x internal
Casement
Item number S67976 S67972 S67972
Profile cross section width in mm 73 96 96
Profile cross section thickness
in mm
75 75 75
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.0 + 1.6 / 1.7 1.0 + 1.6 / 1.7 1.0 + 1.6 / 1.7
Height in mm 30 30 30
Distance of metal shells d in mm 25 25 25
Frame
Item number S67510 S67814 S67906
Profile cross section width in mm 61 81,5 113
Profile cross section thickness
in mm
67 67 67
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.7 1.7 1.7
Height in mm 30 30 30
Distance of metal shells d in mm 25 25 25
Evidence of Performance Page 4 of 9
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Test specimen PK04 PK05 PK06
Profile combination Frame Frame Frame
View B width in mm 61 81.5 113
Sum b in mm 26 46 78
Ratio b/B 0.43 0.56 0.69
Sealing system -/- -/- -/-
Frame
Item number S67510 S67814 S67906
Profile cross section width in mm 61 81,5 113
Profile cross section thickness
in mm
67 67 67
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.7 1.7 1.7
Height in mm 30 30 30
Distance of metal shells d in mm 25 25 25
Test specimen PK07 PK08 PK09
Profile combination Mullion Mullion Mullion
View B width in mm 76 138 206
Sum b in mm 16 78 146
Ratio b/B 0.21 0.57 0.71
Sealing system -/- -/- -/-
Frame / Threshold / Mullion
Item number S67562 S67888 S67570
Profile cross section width in mm 76 138 206
Profile cross section thickness
in mm
67 67 67
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.7 1.7 1.7
Height in mm 30 30 30
Distance of metal shells d in mm 25 25 25
Evidence of Performance Page 5 of 9
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Test specimen PK10 PK11
Profile combination Casement-
Casement over-
lap
Casement-
Casement over-
lap
View B width in mm 151 197
Sum b in mm 59 105
Ratio b/B 0.39 0.53
Sealing system 1 x external
1 x centre
1 x internal
1 x external
1 x centre
1 x internal
Casement
Item number S67976 S67972
Profile cross section width in mm 73 96
Profile cross section thickness
in mm
75 75
Thermal break
Number of bars 2 2
Thickness of bars in mm 1.0 + 1.6 / 1.7 1.0 + 1.6 / 1.7
Height in mm 30 30
Distance of metal shells d in mm 25 25
Casement overlap
Item number S67879 S67879
Profile cross section width in mm 67 67
Profile cross section thickness
in mm
72 72
Thermal break
Number of bars 2 2
Thickness of bars in mm 1.7 1.7
Height in mm 30 30
Distance of metal shells d in mm 25 25
The description is based on specifications provided by the client and on inspection of the test specimen at the ift. (Item des-ignations/ numbers as well as material specifications were provided by the client, unless designated as „ift-tested“.)
Test specimen are described in the annex "Product/Sample description".
Evidence of Performance Page 6 of 9
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
1.2 Sampling
The following data for sampling have been presented to ift:
Sampler: ALUMIL S.A., 61100 Kilkis (Greece)
Date: 27.04.2017
Documentation: ift Rosenheim did not receive a sampling report.
ift-test specimen-No.: 17-000539-PK02
Evidence of Performance Page 7 of 9
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
2 Procedure
2.1 Basic documents *) of the processes
EN ISO 10077-2:2012-02
Thermal performance of windows, doors and shutters - Calculation of thermal transmit-
tance - Part 2 - Numerical method for frames
SG 06-verpflichtend NB-CPD/SG06/11/083 2011-09
EN 14351-1:2006 Treatment of unventilated rectangular cavities when calculating thermal
properties to EN ISO 10077-2
*) correspond/s to the national standard/s, e.g. DIN EN
2.2 Short description of process
Calculation of thermal transmittance Uf
The profile section is subdivided into a sufficient number of elements; with subdivision into smaller elements not having any effect on the total heat flow. The relevant mate-rials / boundary conditions are determined and the total heat flow calculated. The heat flow is used to determine the thermal transmittance.
Evidence of Performance Page 8 of 9
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
3 Detailed results
Evidence of Performance Page 9 of 9
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Attachment 1: Product illustration Page 1 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
24
15
Sight line = 103mm
S67976
PL-00360301
220.11001.01
S60460
PL-00360301
S67510
PL-00360202
220.15001.01
61
210.67223.03
37
75
30
67
73
200.11157.01
202.11151.01
313.10030.00
Polyethylene foam
31
3.0
502
5.0
0
Poly
eth
yle
ne fo
am
Fig 1: Cross section test specimen PK01
Fig 2: Simulation model test specimen PK01
Attachment 1: Product illustration Page 2 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
210.67223.03
313.10030.00
Polyethylene foam
S60460
S67814 S67972220.11001.01
220.15001.01
81,5
Sight line = 146,3mm
24
59,8
67
30
95,6
31
3.0
50
25.0
0
Po
lye
thyle
ne
fo
am
PL-00360301
PL-00360301
PL-00360202PL-00360301
Fig 3: Cross section test specimen PK02
Fig 4: Simulation model test specimen PK02
Attachment 1: Product illustration Page 3 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
313.10030.00
Polyethylene foam
S60460
220.15001.01
24
15
PL-00360202
PL-00360301
31
3.0
50
25
.00
Po
lye
thyle
ne
fo
am
PL-00360301 PL-00360301
S67906 210.67223.03 220.11001.01 S67972
30
113 59,8
Sight line = 177,8mm
67
95,6
202.11151.01
200.11157.01
Fig 5: Cross section test specimen PK03
Fig 6: Simulation model test specimen PK03
Attachment 1: Product illustration Page 4 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
S60431
220.11449.12
S67510
15
24
30 PL-00360301
67
Sight line = 61mm
313.10030.00
Polyethylene foam
31
3.0
50
25
.00
Po
lye
thyle
ne
fo
am
57,8
202.11151.01
200.11157.01
Fig 7: Cross section test specimen PK04
Fig 8: Simulation model test specimen PK04
Attachment 1: Product illustration Page 5 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
S60431
S67814
15
24
PL-00360301
220.11449.12
Sight line = 81,5mm
67
30
56,5
202.11151.01
200.11157.01
313.10030.00
Polyethylene foam
31
3.0
50
25
.00
Po
lye
thyle
ne
fo
am
Fig 9: Cross section test specimen PK05
Fig 10: Simulation model test specimen PK05
Attachment 1: Product illustration Page 6 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
24
S60431
15
31
3.0
50
25
.00
Po
lye
thyle
ne
fo
am
313.10030.00
Polyethylene foam30
67
PL-00360301 PL-00360301
S67906
Sight line = 113mm
109,8
220.11449.12
202.11151.01
200.11157.01
Fig 11: Cross section test specimen PK06
Fig 12: Simulation model test specimen PK06
Attachment 1: Product illustration Page 7 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
15 15
24
24
S67562
S60431S60431
220.11449.12220.11449.12
Sight line = 76mm
67
69,6
30
200.11157.01
313.10030.00
Polyethylene foam
PL-00360301
200.11157.01
313.10030.00
Polyethylene foam
202.11151.01202.11151.01
Fig 13: Cross section test specimen PK07
Fig 14: Simulation model test specimen PK07
Attachment 1: Product illustration Page 8 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
1515
S60431
S60431
S67888
PL-00360301
PL-00360301
313.10030.00
Polyethylene foam
313.10030.00
Polyethylene foam
24
24
Sight line = 138mm
131,6
67
67
202.11151.01
200.11157.01
202.11151.01
200.11157.01
Fig 15: Cross section test specimen PK08
Fig 16: Simulation model test specimen PK08
Attachment 1: Product illustration Page 9 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
24
24
15
S60431
220.11449.12S60431
220.11449.12
30
PL-00360301
PL-00360301
S67570
313.10030.00
Polyethylene foam
313.10030.00
Polyethylene foam
Sight line = 206mm
67
199,6
67
202.11151.01
200.11157.01
15
202.11151.01
200.11157.01
Fig 17: Cross section test specimen PK09
Fig 18: Simulation model test specimen PK09
Attachment 1: Product illustration Page 10 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
210.67223.03
313.10030.00
Polyethylene foam
313.10030.00
Polyethylene foam
24
S67879220.11001.01
15
24
73 73
Sight line = 151mm
S60460
S60460
220.15001.01 220.15001.01
PL-00360202
PL-00360202
PL-00360301
PL-00360301
PL-00360301
37 67 37
75
75
S67976
S67976
202.11151.01
200.11157.01
202.11151.01
200.11157.01
15
Fig 19: Cross section test specimen PK10
Fig 20: Simulation model test specimen PK10
Attachment 1: Product illustration Page 11 of 11
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 17-000539-PR02 (PB-K20-06-en-01) dated 29.05.2017