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Evidence of Performance Calculation of thermal transmittance
Test Report
No. 16-002433-PR01 (PB-K20-06-en-01)
Ve
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Basis *)
EN ISO 10077-2:2012-02
EN ISO 6946:2007-12
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
154.5
77
71
109
20
35 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 24 page/s and annexe (24 pages).
Client ALUMIL S.A. Industrial Area 61100 Kilkis Greece
Product Thermal break metal profiles Profile combination: casement-frame, frame, casement-threshold, casement-mullion
Designation SD77 Smart Doors
Performance-relevant
product details
Material Aluminium alloys; Surface treatment powder coat-ed or painted; View width B in mm 71 to 226; Thermal break; Material Polyamide 6.6 with 25% glass fibre; Surface in thermal break untreated; Inlay; Material “Kingspan Kooltherm K3”; Thermal conductivity in W/(mK) 0.021; Inlay foam in glazing rebate / to structure; Material “NO-MATEC XPE Profiles”; Thermal conductivity in W/(mK) 0.038; Casement; width x thickness in mm 76 to129.5 x 77; Frame; width x thickness in mm 70 to 113 x 77; Threshold; width x thickness in mm 22 x 77; Mullion; width x thickness in mm 56 to 93 x 68 to 77; Panel; Construction in mm 3/40/2 to 3/72/2; Material Polyurethane rigid foam / “Neopor Plus EPS 100 THP”; Thermal conductivity in W/(mK) 0.024 / 0.030; Replacement panel; Edge cover in mm 0 to 22; Thickness in mm 35 to 77
Special features -/-
Results
Calculation of thermal transmittance according to EN ISO 10077-2:2012-02 and EN ISO 6946:2007-12
Uf = 0.9 to 1.9 W/(m²K)
Up = 0.32 to 0.67 W/(m²K)
Ψp = 0,0020 to 0.026 W/(mK)
ift Rosenheim
12.10.2016
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 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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1 Object
1.1 Description of test specimen
Thermal break metal profiles
Profile combination: casement-frame, frame, casement-threshold, casement-mullion
Manufacturer Alumil S.A.
System designation SD77 Smart Doors
Material aluminium alloys
Surface treatment powder coated or painted
Sealing system 1 x external, 1 x centre, 1 x internal
at bottom: 1 x centre, 1 x external or internal
Thermal break
Material Polyamide 6.6 with 25% glass fibre
Surface in thermal break untreated
Inlay foam in glazing rebate /
to structure
Material “Nomatec XPE profiles”
Item number 290.77.003.00 / 313.05.250.00
Width in mm 10 / 5
Thickness in mm 29.5 / 25
Thermal conductivity in W/(mK) 0.038
Inlay in thermal break
Material Phenolic resin hard foam “Kingspan Kooltherm K3”
Thermal conductivity in W/(mK) 0.021
Panel
Face layer
Material Aluminium alloys
Type 1
Thickness in mm 45
Construction in mm 3/40/2
Inlay
Material Polyurethane rigid foam
Thermal conductivity in W/(mK) 0,024
Type 2
Thickness in mm 77
Construction in mm 3/72/2
Inlay
Material Polyurethane rigid foam
Thermal conductivity in W/(mK) 0,024
Evidence of Performance Page 3 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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314
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()0
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Type 3
Thickness in mm 45
Construction in mm 3/40/2
Inlay
Material Expanded polystyrene “Neopor Plus EPS 100 THP”
Thermal conductivity in W/(mK) 0,030
Type 4
Thickness in mm 77
Construction in mm 3/72/2
Inlay
Material Expanded polystyrene “Neopor Plus EPS 100 THP”
Thermal conductivity in W/(mK) 0,030
Replacement panel
Length in mm 190
Edge cover in mm 20 / 22 / 0
Thickness in mm 35 / 45 / 77
Evidence of Performance Page 4 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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314
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Test specimen PK01 PK02 PK03
Profile combination casement-frame casement-
threshold
casement-frame
View width in mm 155 117 152
Sum b in mm 97.6 55.8 97.6
Ratio b/B 0.63 0.48 0.64
Opening direction inwards inwards inwards
Casement
Item number S77582 S77582 S77868
Profile cross section width
in mm
109 109 106
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.8 + 0.9 1.8 + 0.9 1.8 + 0.9
Height in mm 30 30 32 /30
Distance of metal shells d in mm 25 25 27 / 25
Inlay in thermal break
Width in mm 46 46 46
Thickness in mm 22 22 24
Frame / Threshold
Item number S77586 S77774 S77586
Profile cross section width
in mm
71 22 71
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 1 2
Thickness of bars in mm 1.6 / 1.8 0.95 + 1.2 1.6 / 1.8
Height in mm 34 / 30 34 34 / 30
Distance of metal shells d in mm 28/ 24 28 28/ 24
Inlay in thermal break
Width in mm 38 -/- 38
Thickness in mm 16 -/- 16
Panel
Type -/- -/- -/-
Replacement panel
Thickness in mm 35 35 45
Evidence of Performance Page 5 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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Test specimen PK04 PK05 PK06
Profile combination casement-frame casement-
threshold
casement-frame
View width in mm 152 114 130
Sum b in mm 97.6 55.8 97.6
Ratio b/B 0.64 0.49 0.75
Opening direction inwards inwards inwards
Casement
Item number S77868 S77868 S77030
Profile cross section width
in mm
106 106 129.5
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.8 + 0.9 1.8 + 0.9 1.8 + 0.9
Height in mm 32 /30 32 /30 30
Distance of metal shells d in mm 27 / 25 27 / 25 25
Inlay in thermal break
Width in mm 46 46 46
Thickness in mm 24 24 24
Frame / Threshold
Item number S77586 S77774 S77586
Profile cross section width
in mm
71 22 71
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 1 2
Thickness of bars in mm 1.6 / 1.8 0.95 + 1.2 1.6 / 1.8
Height in mm 34 / 30 34 34 / 30
Distance of metal shells d in mm 28/ 24 28 28/ 24
Inlay in thermal break
Width in mm 38 -/- 38
Thickness in mm 16 -/- 16
Panel
Type Type 1 -/- -/-
Replacement panel
Thickness in mm -/- 45 77
Evidence of Performance Page 6 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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Test specimen PK07 PK08 PK09
Profile combination casement-frame casement-
threshold
casement-frame
View width in mm 130 92 155
Sum b in mm 97.6 55.8 97.6
Ratio b/B 0.75 0.61 0.63
Opening direction inwards inwards outward
Casement
Item number S77030 S77030 S77584
Profile cross section width
in mm
129.5 129.5 109
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.8 + 0.9 1.8 + 0.9 1.8 + 0.9
Height in mm 30 30 30 / 22
Distance of metal shells d in mm 25 25 25 / 17
Inlay in thermal break
Width in mm 46 46 46
Thickness in mm 24 24 14
Frame / Threshold
Item number S77586 S77774 S77586
Profile cross section width
in mm
71 22 71
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 1 2
Thickness of bars in mm 1.6 / 1.8 0.95 + 1.2 1.6 / 1.8
Height in mm 34 / 30 34 34 / 30
Distance of metal shells d in mm 28/ 24 28 28/ 24
Inlay in thermal break
Width in mm 38 -/- 38
Thickness in mm 16 -/- 16
Panel
Type Type 2 -/- -/-
Replacement panel
Thickness in mm -/- 77 35
Evidence of Performance Page 7 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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Test specimen PK10 PK11 PK12
Profile combination casement-
threshold
casement-frame casement-frame
View width in mm 117 152 152
Sum b in mm 55.8 97.6 97.6
Ratio b/B 0.48 0.64 0.64
Opening direction outward outward outward
Casement
Item number S77584 S77884 S77884
Profile cross section width
in mm
109 106 106
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.8 + 0.9 1.8 + 0.9 1.8 + 0.9
Height in mm 30 / 22 30 / 22 30 / 22
Distance of metal shells d in mm 25 / 17 25 / 15 25 / 15
Inlay in thermal break
Width in mm 46 46 46
Thickness in mm 14 14 14
Frame / Threshold
Item number S77774 S77586 S77586
Profile cross section width
in mm
22 71 71
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 1 2 2
Thickness of bars in mm 0.95 + 1.2 1.6 / 1.8 1.6 / 1.8
Height in mm 34 34 / 30 34 / 30
Distance of metal shells d in mm 28 28/ 24 28/ 24
Inlay in thermal break
Width in mm -/- 38 38
Thickness in mm -/- 16 16
Panel
Type -/- -/- Type 1
Replacement panel
Thickness in mm 35 45 -/-
Evidence of Performance Page 8 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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314
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Test specimen PK13 PK14 PK15
Profile combination casement-
threshold
casement-frame casement-frame
View width in mm 114 130 130
Sum b in mm 55.8 97.6 97.6
Ratio b/B 0.49 0.75 0.75
Opening direction outward outward outward
Casement
Item number S77884 S77030 S77030
Profile cross section width
in mm
106 129.5 129.5
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.8 + 0.9 1.8 + 0.9 1.8 + 0.9
Height in mm 30 / 22 30 30
Distance of metal shells d in mm 25 / 15 25 25
Inlay in thermal break
Width in mm 46 46 46
Thickness in mm 14 24 24
Frame / Threshold
Item number S77774 S77586 S77586
Profile cross section width
in mm
22 71 71
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 1 2 2
Thickness of bars in mm 0.95 + 1.2 1.6 / 1.8 1.6 / 1.8
Height in mm 34 34 / 30 34 / 30
Distance of metal shells d in mm 28 28/ 24 28/ 24
Inlay in thermal break
Width in mm -/- 38 38
Thickness in mm -/- 16 16
Panel
Type -/- -/- Type 2
Replacement panel
Thickness in mm 45 77 -/-
Evidence of Performance Page 9 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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1-3
314
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1.0
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Test specimen PK16 PK17 PK18
Profile combination casement-
threshold
casement-
mullion
casement-
mullion
View width in mm 92 223 217
Sum b in mm 55.8 135.3 135.3
Ratio b/B 0.61 0.61 0.62
Opening direction outward inwards inwards
Casement 2 x 2 x
Item number S77030 S77582 S77868
Profile cross section width
in mm
129.5 109 106
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.8 + 0.9 1.8 + 0.9 1.8 + 0.9
Height in mm 30 30 32 /30
Distance of metal shells d in mm 25 24.6 27 / 25
Inlay in thermal break
Width in mm 46 46 46
Thickness in mm 24 22 24
Frame / Threshold / Mullion
Item number S77774 S77656 S77656
Profile cross section width
in mm
22 56 56
Profile cross section thickness
in mm
77 68 68
Thermal break
Number of bars 1 2 2
Thickness of bars in mm 0.95 + 1.2 1.6 / 1.8 1.6 / 1.8
Height in mm 34 34 / 30 34 / 30
Distance of metal shells d in mm 28 28 / 24 28 / 24
Inlay in thermal break
Width in mm -/- 20 20
Thickness in mm -/- 16 16
Panel
Type -/- -/- -/-
Replacement panel
Thickness in mm 77 35 45
Evidence of Performance Page 10 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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1-3
314
-en
()0
1.0
7.2
013
Test specimen PK19 PK20 PK21
Profile combination casement-
mullion
casement-
mullion
casement-
mullion
View width in mm 173 223 217
Sum b in mm 135.3 130.4 130.4
Ratio b/B 0.94 0.58 0.60
Opening direction inwards outward outward
Casement
Item number S77030 S77584 S77884
Profile cross section width
in mm
129.5 109 106
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.8 + 0.9 1.8 + 0.9 1.8 + 0.9
Height in mm 30 30 / 22 30 / 22
Distance of metal shells d in mm 25 25 / 17 25 / 15
Inlay in thermal break
Width in mm 46 46 46
Thickness in mm 24 14 14
Frame / Threshold / Mullion
Item number S77656 S77656 S77656
Profile cross section width
in mm
56 56 56
Profile cross section thickness
in mm
68 68 68
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.6 / 1.8 1.6 / 1.8 1.6 / 1.8
Height in mm 34 / 30 34 / 30 34 / 30
Distance of metal shells d in mm 28 / 24 28 / 24 28 / 24
Inlay in thermal break
Width in mm 20 20 20
Thickness in mm 16 16 16
Panel
Type -/- -/- -/-
Replacement panel
Thickness in mm 77 35 45
Evidence of Performance Page 11 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Test specimen PK22 PK23 PK24
Profile combination casement-
mullion
frame Casement-
mullion-frame
View width in mm 173 71 226
Sum b in mm 130.4 36 133.8
Ratio b/B 0.75 0.51 0.59
Opening direction outward -/- inwards
Casement
Item number S77030 -/- S77582
Profile cross section width
in mm
129.5 -/- 109
Profile cross section thickness
in mm
77 -/- 77
Thermal break
Number of bars 2 -/- 2
Thickness of bars in mm 1.8 + 0.9 -/- 1.8 + 0.9
Height in mm 30 -/- 30
Distance of metal shells d in mm 25 -/- 25
Inlay in thermal break
Width in mm 46 -/- 46
Thickness in mm 24 -/- 22
Frame / Threshold / Mullion 2 x
Item number S77656 S77514 S77514 / S77586
Profile cross section width
in mm
56 71 71
Profile cross section thickness
in mm
68 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.6 / 1.8 1.8 1.8 / 1.6
Height in mm 34 / 30 40 40 / 34 /30
Distance of metal shells d in mm 28 / 24 34 34 / 28 / 24
Inlay in thermal break
Width in mm 20 33 33 / 38
Thickness in mm 16 26 26 / 16
Panel
Type -/- -/- -/-
Replacement panel
Thickness in mm 77 35 35
Evidence of Performance Page 12 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Test specimen PK25 PK26 PK27
Profile combination casement-frame frame casement-
mullion
View width in mm 153 113 178
Sum b in mm 76.9 78.2 82.3
Ratio b/B 0.50 0.69 0.46
Opening direction inwards -/- inwards
Casement
Item number S77582 -/- S77582
Profile cross section width
in mm
109 -/- 109
Profile cross section thickness
in mm
77 -/- 77
Thermal break
Number of bars 2 -/- 2
Thickness of bars in mm 1.8 + 0.9 -/- 1.8 + 0.9
Height in mm 30 -/- 30
Distance of metal shells d in mm 25 -/- 25
Inlay in thermal break
Width in mm 46 -/- 46
Thickness in mm 22 -/- 22
Frame / Threshold / Mullion
Item number S77510+S77982 S77906 S77564+S77982
Profile cross section width
in mm
70 113 95
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 3 2 3
Thickness of bars in mm 1.8 /1.6 1.8 1.8 / 1.6
Height in mm 40 / 34 40 40 / 34
Distance of metal shells d in mm 34 / 28 34 34 / 28
Inlay in thermal break
Width in mm 23 75 23
Thickness in mm 26 26 26
Panel
Type -/- -/- -/-
Replacement panel
Thickness in mm 35 35 35
Evidence of Performance Page 13 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Test specimen PK28 PK29 PK30
Profile combination casement-frame casement-
mullion
casement-frame
View width in mm 117 177 150
Sum b in mm 66.8 97.6 109.9
Ratio b/B 0.57 0.55 0.73
Opening direction -/- inward -/-
Casement
Item number S77880 S77582 S77644
Profile cross section width
in mm
115 109 76
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.4 1.8 + 0.9 1.8 / 2.0
Height in mm 28 30 40 / 38
Distance of metal shells d in mm 22 25 34 / 32
Inlay in thermal break
Width in mm 64 46 42
Thickness in mm 13 22 24
Frame / Threshold / Mullion
Item number S77774 S77586 S77886
Profile cross section width
in mm
22 93 74
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 1 2 2
Thickness of bars in mm 0.95 + 1.2 1.6 / 1.8 1.8
Height in mm 34 34 / 30 40
Distance of metal shells d in mm 28 28/ 24 34
Inlay in thermal break
Width in mm -/- 38 61
Thickness in mm -/- 16 26
Panel
Type -/- -/- -/-
Replacement panel
Thickness in mm 35 35 35
Evidence of Performance Page 14 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Test specimen PK31 PK32 PK33
Profile combination casement-frame casement-frame casement-frame
View width in mm 99 152 130
Sum b in mm 64.2 97.6 97.6
Ratio b/B 0.65 0.64 0.75
Opening direction -/- inwards inwards
Casement
Item number -/- S77868 S77030
Profile cross section width
in mm
-/- 106 129.5
Profile cross section thickness
in mm
-/- 77 77
Thermal break
Number of bars -/- 2 2
Thickness of bars in mm -/- 1.8 + 0.9 1.8 + 0.9
Height in mm -/- 32 /30 30
Distance of metal shells d in mm -/- 27 / 25 25
Inlay in thermal break
Width in mm -/- 46 46
Thickness in mm -/- 24 24
Frame / Threshold / Mullion
Item number S77886 S77586 S77586
Profile cross section width
in mm
99 71 71
Profile cross section thickness
in mm
77 77 77
Thermal break
Number of bars 2 2 2
Thickness of bars in mm 1.8 1.6 / 1.8 1.6 / 1.8
Height in mm 40 34 / 30 34 / 30
Distance of metal shells d in mm 34 28/ 24 28/ 24
Inlay in thermal break
Width in mm 61 38 38
Thickness in mm 26 16 16
Panel
Type -/- Type 3 Type 4
Replacement panel
Thickness in mm 35 -/-
Evidence of Performance Page 15 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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1-3
314
-en
()0
1.0
7.2
013
Test specimen PK34 PK35 PK36
Profile combination casement-frame casement-frame Panel
View width in mm 152 130 -/-
Sum b in mm 97.6 97.6 -/-
Ratio b/B 0.64 0.75 -/-
Opening direction outward outward -/-
Casement
Item number S77884 S77030 -/-
Profile cross section width
in mm
106 129.5 -/-
Profile cross section thickness
in mm
77 77 -/-
Thermal break
Number of bars 2 2 -/-
Thickness of bars in mm 1.8 + 0.9 1.8 + 0.9 -/-
Height in mm 30 / 22 30 -/-
Distance of metal shells d in mm 25 / 15 25 -/-
Inlay in thermal break
Width in mm 46 46 -/-
Thickness in mm 14 24 -/-
Frame / Threshold
Item number S77586 S77586 -/-
Profile cross section width
in mm
71 71 -/-
Profile cross section thickness
in mm
77 77 -/-
Thermal break
Number of bars 2 2 -/-
Thickness of bars in mm 1.6 / 1.8 1.6 / 1.8 -/-
Height in mm 34 / 30 34 / 30 -/-
Distance of metal shells d in mm 28/ 24 28/ 24 -/-
Inlay in thermal break
Width in mm 38 38 -/-
Thickness in mm 16 16 -/-
Panel
Type Type 3 Type 4 Type 1
Replacement panel
Thickness in mm -/- -/- -/-
Evidence of Performance Page 16 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Test specimen PK37 PK38 PK39
Profile combination Panel Panel Panel
View width in mm -/- -/- -/-
Sum b in mm -/- -/- -/-
Ratio b/B -/- -/- -/-
Opening direction -/- -/- -/-
Casement
Item number -/- -/- -/-
Profile cross section width
in mm
-/- -/- -/-
Profile cross section thickness
in mm
-/- -/- -/-
Thermal break
Number of bars -/- -/- -/-
Thickness of bars in mm -/- -/- -/-
Height in mm -/- -/- -/-
Distance of metal shells d in mm -/- -/- -/-
Inlay in thermal break
Width in mm -/- -/- -/-
Thickness in mm -/- -/- -/-
Frame / Threshold
Item number -/- -/- -/-
Profile cross section width
in mm
-/- -/- -/-
Profile cross section thickness
in mm
-/- -/- -/-
Thermal break
Number of bars -/- -/- -/-
Thickness of bars in mm -/- -/- -/-
Height in mm -/- -/- -/-
Distance of metal shells d in mm -/- -/- -/-
Inlay in thermal break
Width in mm -/- -/- -/-
Thickness in mm -/- -/- -/-
Panel
Type Type 2 Type 3 Type 4
Replacement panel
Thickness in mm -/- -/- -/-
Evidence of Performance Page 17 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
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1-3
314
-en
()0
1.0
7.2
013
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".
1.2 Sampling
The following data for sampling have been presented to ift:
Sampler: ALUMIL S.A., 61100 Kilkis (Greece)
Datum: 14.09.2016
Documentation: ift Rosenheim did not receive a sampling report.
ift-test specimen-No.: 16-002433-PK01
Evidence of Performance Page 18 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
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
EN ISO 6946:2007-12
Building components and building elements - Thermal resistance and thermal transmit-
tance - Calculation method
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 and linear thermal transmittance Uf / Ψ
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 and the linear thermal transmit-tance. Calculation of thermal transmittance Up
The thermal transmittance of a panel with several homogeneous layers, lying in a row, is calculated from the inverse of the sum of the thermal resistance of the individ-ual layers and the internal and external surface resistance.
Evidence of Performance Page 19 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
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 20 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Evidence of Performance Page 21 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Evidence of Performance Page 22 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Evidence of Performance Page 23 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
Evidence of Performance Page 24 of 24
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
1-3
314
-en
()0
1.0
7.2
013
3.1 Summary of test results
Annex 1: Product illustration Page 1 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
154.5
77
71
109
20
35
Figure 01: Cross section test specimen PK01 Figure 02: Simulation model test specimen PK01
35
20
117
22
77
109
Figure 03: Cross section test specimen PK02 Figure 04: Simulation model test specimen PK02
Annex 1: Product illustration Page 2 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
77
71
22
152
45
106
Figure 05: Cross section test specimen PK03 Figure 06: Simulation model test specimen PK03
Figure 07: Simulation model test specimen PK04
Ψ - calculation
Figure 08: Simulation model test specimen PK32
Ψ - calculation
Annex 1: Product illustration Page 3 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
77
22
45
106
114
22
Figure 09: Cross section test specimen PK05 Figure 10: Simulation model test specimen PK05
Annex 1: Product illustration Page 4 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
77
77
84
130
71
Figure 11: Cross section test specimen PK06 Figure 12: Simulation model test specimen PK06
Uf – calculation
Figure 13: Simulation model test specimen PK07
Ψ - calculation
Figure 14: Simulation model test specimen PK33
Ψ - calculation
Annex 1: Product illustration Page 5 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
77
84
22
92
Figure 15: Cross section test specimen PK08
Figure 16: Simulation model test specimen PK08
20
77
71
155
35
109
Figure 17: Cross section test specimen PK09 Figure 18: Simulation model test specimen PK09
Annex 1: Product illustration Page 6 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
35
20
117
109
77
22
Figure 19: Cross section test specimen PK10 Figure 20: Simulation model test specimen PK10
Annex 1: Product illustration Page 7 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
77
22
45
71
152
106
Figure 21: Cross section test specimen PK11 Figure 22: Simulation model test specimen PK11
Uf - calculation
Figure 23: Simulation model test specimen PK12
Ψ - calculation
Figure 24: Simulation model test specimen PK34
Ψ - calculation
Annex 1: Product illustration Page 8 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
78
22
45
114
22
106
Figure 25: Cross section test specimen PK13 Figure 26: Simulation model test specimen PK13
Annex 1: Product illustration Page 9 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
77
77
84
129
71
Figure 27: Cross section test specimen PK14
Figure 28: Simulation model test specimen PK14
Uf - calculation
Figure 29: Simulation model test specimen PK15
Ψ - calculation
Figure 30: Simulation model test specimen PK35
Ψ - calculation
Annex 1: Product illustration Page 10 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
77
84
92
22
Figure 31: Cross section test specimen PK16 Figure 32: Simulation model test specimen PK16
Annex 1: Product illustration Page 11 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
20
35
223
56
77
109 109
20
68
Figure 33: Cross section test specimen PK17
Figure 34: Simulation model test specimen PK17
Annex 1: Product illustration Page 12 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
22
56
217
106
77
22
106
45
68
Figure 35: Cross section test specimen PK18
Figure 36: Simulation model test specimen PK18
Annex 1: Product illustration Page 13 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
56
84
77
173
84
68
Figure 37: Cross section test specimen PK19
Figure 38: Simulation model test specimen PK19
Annex 1: Product illustration Page 14 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
20
35
223
109
77
56
68
20
Figure 39: Cross section test specimen PK20
Figure 40: Simulation model test specimen PK20
Annex 1: Product illustration Page 15 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
84
22 56
45
78
217
106
68
22
Figure 41: Cross section test specimen PK21
Figure 42: Simulation model test specimen PK21
Annex 1: Product illustration Page 16 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
84
56
77
173
84
68
Figure 43: Cross section test specimen PK22
Figure 44: Simulation model test specimen PK22
Annex 1: Product illustration Page 17 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
7 7
35
15
71
Figure 45: Cross section test specimen PK23 Figure 46: Simulation model test specimen PK23
Annex 1: Product illustration Page 18 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
15
71
20
35
77
109
226
71
35
Figure 47: Cross section test specimen PK24
Figure 48: Simulation model test specimen PK24
Annex 1: Product illustration Page 19 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
77
70
35
20
109
153
Figure 49: Cross section test specimen PK25 Figure 50: Simulation model test specimen PK25
35
15
77
113
Figure 51: Cross section test specimen PK26 Figure 52: Simulation model test specimen PK26
Annex 1: Product illustration Page 20 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
35
15 20
178
109
95
77
35
Figure 53: Cross section test specimen PK27
Figure 54: Simulation model test specimen PK27
Annex 1: Product illustration Page 21 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
35
20
77
117
Figure 55: Cross section test specimen PK28 Figure 56: Simulation model test specimen PK28
Annex 1: Product illustration Page 22 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
17 20
109
93
176
35
77
Figure 57: Cross section test specimen PK29
Figure 58: Simulation model test specimen PK29
Annex 1: Product illustration Page 23 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
35
77
20
150
74
76
Figure 59: Cross section test specimen PK30 Figure 60: Simulation model test specimen PK30
35
15
99
77
Figure 61: Cross section test specimen PK31 Figure 62: Simulation model test specimen PK31
Annex 1: Product illustration Page 24 of 24
Evidence of Performance
Calculation of thermal transmittance
Test Report No. 16-002433-PR01 (PB-K20-06-en-01) dated 12.10.2016
Client: ALUMIL S.A., 61100 Kilkis (Greece)
Ve
-PB
5-3
316
-en
(01
.07
.201
3)
3
40
2
45
3
72
2
77
Figure 63: Cross section test specimen PK36 / PK38
Figure 64: Cross section test specimen PK37 / PK39