Certif Square 40

TEST REPORT No. 379811/13909/CPR (1) Order:
84358
issued by Istituto Giordano in the capacity of notified test laboratory (No. 0407) pursuant
to Regulation 305/2011/EU of the European Parliament and of the Council of 09/03/2011 Item origin:
sampled and supplied by the customer
this document cancels and replaces test report No. 377313/13757/CPR
dated 20 November 2020 issued by Istituto Giordano Identification of item received:
2020/2211/A dated 16 October 2020
Customer
Activity date:
ALLUCO 26 October 2020

Industrial Zone BP 47 - 5050 MOKNINE - Tunisia Activity site:
Istituto Giordano S.p.A. - Strada Erbosa Uno, 72 -
Item* 47043 Gatteo (FC) - Italy

window named Contents Page
“SQUARE 40 - SINGLE LEAF - HINGED WINDOW” Description of item* 2
Manufacturing site* 4
Normative references 4
Apparatus 4
Method 5
Environmental conditions 6
Results 6
Findings
Variation list 15
15

Activity

environmental and mechanical tests with reference to
the harmonized standard UNI EN 14351-1:2016

Results

Activity Test standard Classification standard Class
3
air permea- related to overall area UNI EN 1026:2016 UNI EN 12207:2000/EC 1-2007 3
bility under related to openable 3
joint length 3
positive 3
pressure final 3
3
air permea- related to overall area UNI EN 1026:2016 UNI EN 12207:2000/EC 1-2007 2A
bility under related to openable C5
joint length
negative pass
pressure final

air permeability UNI EN 1026:2016 UNI EN 14351-1:2016
(non-ACCREDIA accredited activity)

watertightness UNI EN 1027:2016 UNI EN 12208:2000/EC 1-2007 This document is made up of 15 pages and 1 annex
and shall not be reproduced except in full without
resistance to wind load UNI EN 12211:2016 UNI EN 12210:2016 extrapolating parts of interest at the discretion of the
customer, with the risk of favoring an incorrect
verification of the load-bearing ca- interpretation of the results, except as defined at
contractual level.
pacity of safety devices UNI EN 14609:2004 UNI EN 14351-1:2016 The results relate only to the item examined, as
received, and are valid only in the conditions in which
(non-ACCREDIA accredited activity) the activity was carried out.
The original of this document consists of an electronic
(*) according to that stated by the customer Chief Executive Officer document digitally signed pursuant to the applicable
Bellaria-Igea Marina - Italy, 15 February 2021 Italian Legislation.

Chief Test Technician:
Dott. Ing. Paolo Bertini
Head of Security and Safety Laboratory:
Dott. Andrea Bruschi
CPD Department Technical Manager:
Dott. Ing. Giuseppe Persano Adorno

Compiler: Dott. Marina Bonito
Reviewer: Dott. Ing. Paolo Bertini

Page 1 of 15

Istituto Giordano S.p.A. Tel. +39 0541 343030 - Fax +39 0541 345540 Codice fiscale/Partita IVA: 00 549 540 409
Via Gioacchino Rossini, 2 www.giordano.it Capitale sociale € 1.500.000 i.v.
47814 Bellaria-Igea Marina (RN) - Italia [email protected] R.E.A. c/o C.C.I.A.A. (RN) 156766
PEC: [email protected] Registro Imprese della Romagna - Forlì-Cesena e Rimini n. 00 549 540 409

Test report No. 379811/13909/CPR dated 15 February 2021 Page 2 of 15

Description of item*
The item under examination consists of a single leaf hinged window.
Further details in annex “A”.

Customer-supplied component list

Code Description Material
FSQ 100 Aluminum
FSQ 403 Sash with joint cover Aluminum
FSQ 111 Sash double tubular square Aluminum
FSQ 108 Glazing stop Aluminum
FSQ 107 Water discharge Aluminum
36440FR Locking rod
11840 Assembling bracket Zamac
0120410 Alignement frame bracket PVC
Ex60 A256 3 hinges
01076410 Drainage cap Aluminum+PVC
KIT CRL Cremone bolt PVC
DV 20 Cremone bolt kit
DGU 4.4/6 air/6 Aluminum+zamac
J242 Exterior glazing gasket Aluminum+zamac
J220 Glazing gasket
J247 Internal beat seal -
J784 Central gasket EPDM
J2102 External beat seal EPDM
EPDM
Data obtained from the item width EPDM
height EPDM
Overall dimensions width
height 845 mm
Openable dimensions 1245 mm
Overall area 745 mm
Openable area 1160 mm
Openable perimeter 1,050 m²
0,864 m²

3,81 m

(*) according to that stated by the customer, apart from characteristics specifically stated to be measurements; Istituto Giordano declines all re-
sponsibility for the information and data provided by the customer that may influence the results.

Test report No. 379811/13909/CPR dated 15 February 2021 Page 3 of 15

Photograph of the item

Test report No. 379811/13909/CPR dated 15 February 2021 Page 4 of 15

Manufacturing site*
ALLUCO - Industrial Zone BP 47 - 5050 MOKNINE - Tunisia.

Normative references

Standard Title
UNI EN 14351-1:2016
Finestre e porte - Norma di prodotto, caratteristiche prestazionali - Parte 1: Finestre
UNI EN 1026:2016 e porte esterne pedonali (Windows and doors - Product standard, performance characteristics -
UNI EN 1027:2016
UNI EN 12211:2016 Part 1: Windows and external pedestrian doorsets)
UNI EN 12207:2000
EC 1-2007 UNI EN 12207:2000 Finestre e porte - Permeabilità all’aria - Metodo di prova (Windows and doors - Air per-
UNI EN 12207:2017
UNI EN 12208:2000 meability - Test method)
EC 1-2007 UNI EN 12208:2000
UNI EN 12210:2016 Finestre e porte - Tenuta all’acqua - Metodo di prova (Windows and doors - Watertight-
UNI EN 14609:2000
ness - Test method)

Finestre e porte - Resistenza al carico del vento - Metodo di prova (Windows and doors -

Resistance to wind load - Test method)

Finestre e porte - Permeabilità all’aria - Classificazione (Windows and doors - Air permeabi-

lity - Classification)

//

Finestre e porte - Permeabilità all’aria - Classificazione (Windows and doors - Air permeabi-

lity - Classification)

Finestre e porte - Tenuta all’acqua - Classificazione (Windows and doors - Watertightness -

Classification)

//

Finestre e porte - Resistenza al carico del vento - Classificazione (Windows and doors -

Resistance to wind load - Classification)

Finestre - Determinazione della resistenza alla torsione statica (Windows - Determination
of the resistance to static torsion) (non-ACCREDIA accredited activity)

Apparatus

Description In-house identification
code
Istituto Giordano computerized semiautomatic control and measurement system capable EDI001
of performing all tests with the parameters requested by the normative references
EDI002a, EDI002b,
Istituto Giordano pressure differential devices (orifice plates, nozzles and Venturi tubes) EDI002c, EDI002d,
compliant with standards ASME MFC-14M:2003 “Measurement of fluid flow using small bo- EDI002e, EDI002f
re precision orifice meters”, UNI EN ISO 5167-1:2004 “Misurazione della portata dei fluidi
mediante dispositivi a pressione differenziale inseriti in condotti a sezione circolare piena - EDI018
Parte 1: Principi e requisiti generali” (“Measurement of fluid flow by means of pressure differential devi-
ces inserted in circular cross-section conduits running full. General principles and requirements”) e UNI EN ISO
5167-2:2004 “Misurazione della portata dei fluidi mediante dispositivi a pressione differen-
ziale inseriti in condotti a sezione circolare piena - Parte 2: Diaframmi” (“Measurement of fluid

flow by means of pressure differential devices inserted in circular cross-section conduits running full. Orifice
plates”)

Elektronik temperature and relative humidity transmitter

(*) according to that stated by the customer.

Test report No. 379811/13909/CPR dated 15 February 2021 Page 5 of 15

Description In-house identification
code
Druck ambient absolute pressure transducer
Setra System differential pressure transducers EDI019a
Asa flow meters with flow rate suitable for size of item EDI024, EDI025

6 Gefran electronic displacement transducers EDI008a
EDI017a, EDI017b,
GSM Technology For Lighting portable smoke generator EDI017c, EDI017d,
Mitutoyo Corporation digital meter, full scale 5500 mm EDI017e, EDI017f
AEP Transducers 1 kN load cell with DFI reader
EDI072
FT364
EDI104

For the calibration, compliance and identification of each individual piece of equipment (including service devices) refer
to the internal PP049 detailed procedure in its current revision at testing date.

Method
The test was carried out using detailed internal procedure PP049 in its current revision at testing date.
The item was tested under latched condition.
The item, conditioned for 4 h immediately prior to testing under the ambient conditions was fitted to the test rig and
subjected in sequence to the activities reported in the following table.

Activity Standard reference

verification for any parasitic leaks of the test chamber / test rig and identification of the posi- //
tions of the points of item significant air infiltration

measurement of air permeability under positive and negative pressure UNI EN 1026:2016

watertightness measurement UNI EN 1027:2016

resistance to wind load measurement of deflection under wind load with pressure P1 UNI EN 12211:2016
verification of resistance to pulsating pressure P2 UNI EN 12211:2016

verification of air permeability under positive and negative pressure after pressure P1 and P2 UNI EN 1026:2016

resistance to wind load safety check on item under extreme conditions with pressure P3 UNI EN 12211:2016

verification of the load-bearing capacity of safety devices UNI EN 14609:2000

Notes for the correct reading of the results
For air permeability tests all figures refer to pressure of 101,3 kPa and temperature of 293 K.
For air permeability tests uncertainty considers contributions caused by measurement of the following quantities: air
flow, test chamber pressure and size of item.
For wind load resistance test uncertainty considers contributions caused by measurement of the following quanti-
ties: test chamber pressure, net span of elements verified, frontal displacement.
Expanded uncertainty has been calculated using a coverage factor “k” of 2, corresponding to a confidence level of
95,45 %.

Test report No. 379811/13909/CPR dated 15 February 2021 Page 6 of 15

Environmental conditions (1005 ± 10) hPa
(21 ± 1) °C
Atmospheric pressure (58 ± 5) %
Temperature
Relative humidity

Results

Measurement of air permeability under positive pressure

Pressure Air flow
related to the overall area
nominal test total and relative uncertainty related to opening joint
length and relative
[Pa] [Pa] [m³/h] [m³/h · m²] uncertainty

50 49 3,70 3,52 ± 0,11 [m³/h · m]
100 98 5,55 5,28 ± 0,18
150 147 7,00 6,66 ± 0,22 0,972 ± 0,030
200 196 8,28 7,87 ± 0,26 1,457 ± 0,048
250 245 9,43 8,97 ± 0,27 1,838 ± 0,060
300 298 10,16 9,66 ± 0,30 2,174 ± 0,071
450 449 13,64 12,97 ± 0,44 2,476 ± 0,074
600 599 15,78 15,00 ± 0,47 2,666 ± 0,084

3,58 ± 0,12
4,14 ± 0,13

100,0 100,0

10,0 10,0

Air flow [m³/(h · m²)]
Air flow [m³/(h · m)]
1,0 1,0

0,1 100 1000 0,1 100 1000
10 Pressure [Pa] 10 Pressure [Pa]

Air flow related to overall area Air flow related to openable joint length

Test report No. 379811/13909/CPR dated 15 February 2021 Page 7 of 15

Air permeability class under related to overall area 3
3
positive pressure related to openable joint length
3
Air permeability class under positive pressure according to standard

UNI EN 12207:2000/EC 1-2007 / UNI EN 12207:2017

Test report No. 379811/13909/CPR dated 15 February 2021 Page 8 of 15

Measurement of air permeability under negative pressure

Pressure Air flow
related to the overall area
nominal test total and relative uncertainty related to opening joint
length and relative
[Pa] [Pa] [m³/h] [m³/h · m²] uncertainty

50 49 3,50 3,329 ± 0,099 [m³/h · m]
100 99 5,19 4,93 ± 0,16
150 147 6,57 6,25 ± 0,20 0,919 ± 0,027
200 197 7,68 7,30 ± 0,23 1,362 ± 0,045
250 247 8,68 8,25 ± 0,26 1,725 ± 0,055
300 293 9,59 9,11 ± 0,29 2,017 ± 0,063
450 448 12,27 2,279 ± 0,073
600 596 14,16 11,66 ± 0,37 2,517 ± 0,080
13,46 ± 0,42
3,22 ± 0,10
3,72 ± 0,12

100,0 100,0

10,0 10,0

Air flow [m³/(h · m²)]
Air flow [m³/(h · m)]
1,0 1,0

0,1 100 1000 0,1 100 1000
10 Pressure [Pa] 10 Pressure [Pa]

Air flow related to overall area Air flow related to openable joint length

Air permeability class under related to overall area 3
3
negative pressure related to openable joint length
3
Air permeability class under negative pressure according to standard

UNI EN 12207:2000/EC 1-2007 / UNI EN 12207:2017

Test report No. 379811/13909/CPR dated 15 February 2021 Page 9 of 15

Calculation of the mean permeability to air and classification according to standard UNI EN 14351-1:2016

Nominal pressure total average Air flow related to
related to openable joint length
[Pa] [m³/h] overall area
[m³/h ⋅ m]
50 3,57 [m³/h ⋅ m²]
100 5,31 0,936
150 6,69 3,391 1,393
200 7,89 5,046 1,755
250 8,96 6,355 2,072
300 9,79 7,504 2,352
450 12,92 8,517 2,568
600 14,93 9,302 3,391
12,281 3,918
14,191

Air permeability class related to overall area 3
related to openable joint length 3
3
Air permeability class according to standard UNI EN 14351-1:2016

Test report No. 379811/13909/CPR dated 15 February 2021 Page 10 of 15

Measurement of watertightness A
n. 1
Water spray system utilized n. 2
Lines of nozzles 240 l/h
Nozzles per line
Water flow rate Observations

Pressure Spraying time no penetration
no penetration
[Pa] [min] penetration between the leaf and casement left angle

0 15 2A
50 5
100 5

Watertightness class according to standard
UNI EN 12208:2000

Item elevation showing infiltration point

Test report No. 379811/13909/CPR dated 15 February 2021 Page 11 of 15

Resistance to wind load 670 5
Test target class 2000 Pa
Test pressure P1 B 1000 Pa
Test pressure P2 (0,5·P1) 3000 Pa
Test pressure P3 (1,5·P1) 670 mm
Clear span of section A-C 1100 mm
Clear span of section D-F
A
DC

1100 E

F

Item elevation showing measuring points

Test report No. 379811/13909/CPR dated 15 February 2021 Page 12 of 15

Measurement of deflection under wind load with pressure P1

Pressure Frontal displacement at measuring points Frontal Relative frontal deflection Permissible relative
frontal
deflection noted and relative uncertainty
deflection
nominal test A B C D E F A<B>C D<E>F A<B>C D<E>F
[1/xxx]
[Pa] [Pa] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [1/xxx] [1/xxx] //

0 0 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 // // 1/300
//
2000 2012 1,02 1,00 0,36 0,24 0,75 0,34 0,31 0,46 1/(2180 ± 620) 1/(2390 ± 510) //

0* 0 0,01 0,00 0,01 0,01 0,02 0,01 -0,01 0,01 // // 1/300
//
0 0 0,00 0,01 0,00 0,00 0,00 0,00 0,00 0,00 // //

-2000 -2008 -0,66 -0,91 -0,68 -0,60 -0,91 -0,30 -0,24 -0,46 1/(2780 ± 940) 1/(2400 ± 510)

0* 0 -0,02 -0,04 -0,03 -0,04 -0,02 0,00 -0,01 0,00 // //

(*) pressure set to zero to detect the permanent deformations.

Verification of resistance to pulsating pressure P2

Pressure Cycles Observations

[Pa] [No.] no visible damage at a distance of 1 m and no
operating defects after pressure P1 and P2
±1000 50

Wind load resistance class according to deflection C
5
standard UNI EN 12210:2016 wind load

Test report No. 379811/13909/CPR dated 15 February 2021 Page 13 of 15

Verification of air permeability under positive pressure after pressure P1 and P2

Pressure Air flow
related to the overall area
nominal test total and relative uncertainty related to opening joint
length and relative
[Pa] [Pa] [m³/h] [m³/h · m²] uncertainty

50 49 3,71 3,52 ± 0,11 [m³/h · m]
100 100 5,60 5,33 ± 0,18
150 146 7,06 6,71 ± 0,22 0,973 ± 0,029
200 197 8,32 7,91 ± 0,26 1,471 ± 0,049
250 246 9,52 9,05 ± 0,28 1,854 ± 0,061
300 300 10,43 9,92 ± 0,31 2,183 ± 0,071
450 447 13,29 12,64 ± 0,42 2,500 ± 0,078
600 598 15,84 15,06 ± 0,52 2,738 ± 0,084

3,49 ± 0,12
4,16 ± 0,14

100,0 100,0

10,0 10,0

Air flow [m³/(h · m²)]
Air flow [m³/(h · m)]
1,0 1,0

0,1 100 1000 0,1 100 1000
10 Pressure [Pa] 10 Pressure [Pa]

Air flow related to overall area Air flow related to openable joint length

Test report No. 379811/13909/CPR dated 15 February 2021 Page 14 of 15

Verification of air permeability under negative pressure after pressure P1 and P2

Pressure Air flow
related to the overall area
nominal test total and relative uncertainty related to opening joint
length and relative
[Pa] [Pa] [m³/h] [m³/h · m²] uncertainty

50 49 3,56 3,38 ± 0,10 [m³/h · m]
100 99 5,25 4,99 ± 0,16
150 147 6,62 6,29 ± 0,20 0,934 ± 0,028
200 199 7,70 7,32 ± 0,23 1,378 ± 0,045
250 246 8,71 8,28 ± 0,27 1,737 ± 0,055
300 295 9,68 9,20 ± 0,28 2,021 ± 0,064
450 447 11,82 11,24 ± 0,36 2,285 ± 0,075
600 598 14,27 13,57 ± 0,48 2,540 ± 0,078

3,10 ± 0,10
3,75 ± 0,13

100,0 100,0

10,0 10,0

Air flow [m³/(h · m²)]
Air flow [m³/(h · m)]
1,0 1,0

0,1 100 1000 0,1 100 1000
10 Pressure [Pa] 10 Pressure [Pa]

Air flow related to overall area Air flow related to openable joint length

Safety check on item under extreme conditions (pressure P3)

Pressure Observations

[Pa] no opening of sashes, breakage, detachment of parts or
apparent malfunction
+3000
no opening of sashes, breakage, detachment of parts or
-3000 apparent malfunction

Test report No. 379811/13909/CPR dated 15 February 2021 Page 15 of 15

Verification of the load-bearing capacity of safety devices

Type of opening Applied load Displacement detected Result

hinged [N] [mm] no failure
tilting no failure
350 43 no failure
(*) residual displacement. 0 4* no failure
350 87
0 1*

Findings

Activity Test standard Classification stand- Class*
ard

air permeability related to overall area UNI EN 1026:2016 UNI EN 12207:2000/ 3
under positive related to openable joint length EC 1-2007 3
3
pressure final UNI EN 12207:2017

air permeability related to overall area UNI EN 1026:2016 UNI EN 12207:2000/ 3
under negative related to openable joint length EC 1-2007 3
3
pressure final UNI EN 12207:2017

air permeability UNI EN 1026:2016 UNI EN 14351-1:2016 3
(non-ACCREDIA accredited activity)

watertightness UNI EN 1027:2016 UNI EN 12208:2000/ 2A
EC 1-2007

resistance to wind load UNI EN 12211:2016 UNI EN 12210:2016 C5

verification of the load-bearing capacity of safety devices UNI EN 14609:2004 UNI EN 14351-1:2016 pass
(non-ACCREDIA accredited activity)

(*) the classification has been determined on the basis of the values obtained by measurements in line with clause 2.6 of ILAC G8:03/2009 guide
“Guidelines on the reporting of compliance with specification”, having satisfied the requirements on measurements and apparatus defined in
the reference normative documents

Variation list Description
added “Verification of the load-bearing capacity of safety devices” mechanical test
Number
(1)

Chief Test Technician Head of Security and Safety CPD Department Technical Manager
(Dott. Ing. Paolo Bertini) Laboratory (Dott. Ing. Giuseppe Persano Adorno)

............................................ (Dott. Andrea Bruschi) ............................................

............................................

ANNEX “A” Order:
TO TEST REPORT No. 379811/13909/CPR 84358

Customer Item origin:
sampled and supplied by the customer
ALLUCO
Identification of item received:
Industrial Zone BP 47 - 5050 MOKNINE - Tunisia 2020/2211/A dated 16 October 2020

Item* Activity date:
26 October 2020
window named
“SQUARE 40 - SINGLE LEAF - HINGED WINDOW” Activity site:
Istituto Giordano S.p.A. - Strada Erbosa Uno, 72 -
Contents 47043 Gatteo (FC) - Italy

technical documentation

(*) according to that stated by the customer.
Bellaria-Igea Marina - Italy, 15 February 2021

Istituto Giordano S.p.A. Tel. +39 0541 343030 - Fax +39 0541 345540 This annex consists of 2 pages.
Via Gioacchino Rossini, 2 www.giordano.it
47814 Bellaria-Igea Marina (RN) - Italia [email protected] Page 1 of 2
PEC: [email protected]
Codice fiscale/Partita IVA: 00 549 540 409
Capitale sociale € 1.500.000 i.v.
R.E.A. c/o C.C.I.A.A. (RN) 156766
Registro Imprese della Romagna - Forlì-Cesena e Rimini n. 00 549 540 409

Annex “A” to test report No. 379811/13909/CPR dated 15 February 2021 Page 2 of 2