SIST EN 15683-2:2014

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Steklo v gradbeništvu - Toplotno kaljeno natrij-kalcijevo silikatno utorjeno varnostno steklo - 2. del: Ovrednotenje skladnosti/standard za izdelekGlas im Bauwesen - Thermisch vorgespanntes Kalknatron-Profilbau-Sicherheitsglas - Teil 2: Konformitätsbewertung/ProduktnormVerre dans la construction - Verre de silicate sodo-calcique profilé de sécurité trempé thermiquement - Partie 2 : Evaluation de la conformité/Norme de produitGlass in building - Thermally toughened soda lime silicate channel shaped safety glass - Part 2: Evaluation of conformity/Product standard81.040.20Steklo v gradbeništvuGlass in buildingICS:Ta slovenski standard je istoveten z:EN 15683-2:2013SIST EN 15683-2:2014en,fr,de01-april-2014SIST EN 15683-2:2014SLOVENSKI
STANDARD
EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 15683-2
December 2013 ICS 81.040.20 English Version
Glass in building - Thermally toughened soda lime silicate channel shaped safety glass - Part 2: Evaluation of conformity/Product standard
Verre dans la construction - Verre de silicate sodo-calcique profilé de sécurité trempé thermiquement - Partie 2 : Evaluation de la conformité/Norme de produit
Glas im Bauwesen - Thermisch vorgespanntes Kalknatron-Profilbau-Sicherheitsglas - Teil 2: Konformitätsbewertung/Produktnorm This European Standard was approved by CEN on 30 May 2013.
CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management Centre has the same status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION EUROPÄISCHES KOMITEE FÜR NORMUNG
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Avenue Marnix 17,
B-1000 Brussels © 2013 CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Members. Ref. No. EN 15683-2:2013 ESIST EN 15683-2:2014

Factory production control . 18 A.1 Factory production control requirements . 18 A.1.1 General . 18 A.1.2 Organisation . 18 A.1.3 Control system . 18 A.2 Marking . 19 A.3 Inspection and testing tables of thermally toughened soda lime silicate channel shaped safety glass production . 19 A.3.1 Information to the Table A.1 . 19 A.3.2 Product control . 20 A.3.3 Use of proxy testing . 20 Annex B (informative)
Tests for factory production control . 24 B.1 Fragmentation test . 24 B.1.1 Requirements . 24 B.1.2 Test method. 24 Annex C (informative)
Provisions for voluntary involvement of third party(ies) . 25 C.1 General . 25 C.2 Voluntary tasks for third parties . 25 SIST EN 15683-2:2014

Clauses of this European Standard addressing the provisions of EU Construction Products Directive . 26 ZA.1 Scope and relevant characteristics . 26 ZA.2 Procedure(s) for the attestation of conformity of thermally toughened soda lime silicate channel shaped safety glass products . 28 ZA.2.1 System(s) of attestation of conformity . 28 ZA.2.2 EC Certificate and Declaration of Conformity . 31 ZA.3 CE marking and labelling . 32 Bibliography . 35
This also includes requirements subject to regulation.
2 Normative references The following documents, in whole or in part, are normatively referenced in this document and are indispensable for its application. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. EN 356, Glass in building — Security glazing — Testing and classification of resistance against manual attack EN 410, Glass in building — Determination of luminous and solar characteristics of glazing EN 572-1, Glass in building – Basic soda lime silicate glass products -– Part 1: Definitions and general physical and mechanical properties EN 572-7, Glass in building — Basic soda lime silicate glass products — Part 7: Wired or unwired channel shaped glass EN 673, Glass in building — Determination of thermal transmittance (U value) — Calculation method EN 1063, Glass in building — Security glazing — Testing and classification of resistance against bullet attack EN 1096-1, Glass in building — Coated glass — Part 1: Definitions and classification EN 1096-2, Glass in building — Coated glass — Part 2: Requirements and test methods for class A, B and S coatings EN 12600, Glass in building — Pendulum test — Impact test method and classification for flat glass EN 12758, Glass in building — Glazing and airborne sound insulation — Product descriptions and determination of properties EN 12898, Glass in building — Determination of the emissivity EN 13501-1, Fire classification of construction products and building elements — Part 1: Classification using data from reaction to fire tests EN 13501-2, Fire classification of construction products and building elements — Part 2: Classification using data from fire resistance tests, excluding ventilation services EN 13501-5, Fire classification of construction products and building elements — Part 5: Classification using data from external fire exposure to roofs tests EN 13541, Glass in building — Security glazing — Testing and classification of resistance against explosion pressure EN 15683-1:2013, Glass in building — Thermally toughened soda lime silicate channel shaped safety glass — Part 1: Definition and description SIST EN 15683-2:2014

The definition of product families shall be consistent with the normative part of the product description. SIST EN 15683-2:2014

Since the majority of the characteristics of Table 1 are not changed significantly by the thermal toughening process they shall be used for thermally toughened soda lime silicate channel shaped safety glass. The exceptions shall be the characteristic bending strength fg,k and the resistance against sudden temperature changes and temperature differentials. SIST EN 15683-2:2014

- Specific heat capacity - Coefficient of linear expansion - Thermal conductivity (for U-value) - Mean refractive index to visible radiation - Emissivity - Light transmittance - Solar direct transmittance - Total energy transmittance ρ HK0,1/20 E µ fg,k c α λ n ε τv τe g kg/m³ GPa Pa Dimensionless Pa K J/(kg⋅K) K-1 W/(m⋅K) Dimensionless Dimensionless Dimensionless Dimensionless Dimensionless
If some coatings, i.e. coated glass conforming with the EN 1096 series, when thermally toughened change their radiometric properties the manufacturer shall refer to the following for the determination of the appropriate characteristics, etc.:  4.3.2.12 for the emissivity;  4.3.2.13 for the light transmittance and reflectance;  4.3.2.14 for the solar energy transmittance;  EN 1096-2 for the durability of A, B and S coatings. 4.3.2 Determination of characteristics of thermally toughened soda lime silicate channel shaped safety glass products 4.3.2.1 General If the thermally toughened glass manufacturer wishes to claim that any performance characteristic is independent of the production equipment used then the factory production control system shall be in accordance with this document including his specific process control conditions. 4.3.2.2 Safety in the case of fire - Resistance to fire Fire resistance shall be determined and classified in accordance with EN 13501-2. 4.3.2.3 Safety in the case of fire - Reaction to fire Reaction to fire shall be determined and classified in accordance with EN 13501-1. SIST EN 15683-2:2014

Safety in the case of fire - External fire behaviour Where the manufacturer wishes to declare external fire performance (e.g. when subject to regulatory requirements), the product shall be tested and classified in accordance with EN 13501-5. 4.3.2.5 Safety in use - Bullet resistance: shatter properties and resistance to attack Bullet resistance shall be determined and classified in accordance with EN 1063. NOTE Thermally toughened soda lime silicate channel shaped glass will usually not be classified as bullet resistant. 4.3.2.6 Safety in use - Explosion resistance: impact behaviour and resistance to impact Explosion resistance shall be determined and classified in accordance with EN 13541. NOTE Thermally toughened soda lime silicate channel shaped glass will usually not be classified as explosion resistant. 4.3.2.7 Safety in use - Burglar resistance: shatter properties and resistance to attack Burglar resistance shall be determined and classified in accordance with EN 356. NOTE Thermally toughened soda lime silicate channel shaped glass will usually not be classified as burglar resistant. 4.3.2.8 Safety in use - Pendulum body impact resistance: shatter properties (safe breakability) and resistance to impact Pendulum body impact resistance shall be determined and classified in accordance with EN 12600. NOTE Thermally toughened soda lime silicate channel shaped glass cannot be classified for pendulum body impact resistance as the test method only applies to flat glass. A system incorporating thermally toughened soda lime silicate channel shaped glass may be tested and impact performance determined. 4.3.2.9 Safety in use - Mechanical resistance: Resistance against sudden temperature changes and temperature differentials The resistance against sudden temperature changes and temperature differentials is a generally accepted value that is given in EN 15683-1 and shall be ensured by compliance with this document. 4.3.2.10 Safety in use - Mechanical resistance: Resistance against wind, snow, permanent load and/or imposed loads of the glass unit The mechanical strength/profile bending strength of thermally toughened soda lime silicate channel shaped safety glass is a characteristic value that is given in EN 15683-1 and shall be ensured by compliance with this document. As long as on the concerned construction or building site no part of prEN 16612 is applicable for the design, then the current method of determining mechanical resistance in the country of destination shall be applied.
The manufactured or supplied type, i.e. thickness, width and flange height, and length (H) of thermally toughened soda lime silicate channel shaped safety glass shall conform to the ordered type and length (H). SIST EN 15683-2:2014

Subject to 5.2.1, the information supplied about the radiation properties of the incoming glass may be used if the thermal toughening process does not alter the values. 4.3.2.14 Energy conservation and heat retention - Radiation properties: Solar energy characteristics The solar energy transmittance and reflectance shall be determined in accordance with EN 410.
Subject to 5.2.1, the information supplied about the radiation properties of the incoming glass can be used if the thermal toughening process does not alter the values. 4.4 Durability When products conform to the definition of thermally toughened soda lime silicate channel shaped safety glass as 4.2, then the characteristics’ performances in 4.3.2 are ensured during an economically reasonable working life. The durability of glass products including their characteristics, shall be ensured by the following:  compliance with this document;  compliance with instructions from the glass product manufacturer or supplier. The manufacturer shall supply specific installation instructions or make reference to appropriate technical specifications. NOTE The durability of glass products depends on:
 building and construction movements due to various actions;  building and construction vibrations due to various actions;  deflection and racking of the glass support due to various actions;  glass support design (e.g. drainage of infiltrated water in the rebate, prevention of direct contact between glass support members and glass); SIST EN 15683-2:2014

this shall include the following: 1) inspection of samples taken at the factory in accordance with a prescribed test plan; 2) initial inspection of the factory and of factory production control; 3) continuous surveillance and assessment of the factory production control. b) initial type testing of the product. There may be a need to involve a third party, with 1b, 1c, and/or 2, for the purpose of regulatory marking (see Annex ZA). 5.2 Initial type testing of the product (see 5.1, b)) 5.2.1 General 5.2.1.1 General All the product’s characteristics shall be initial type tested to verify they are in conformity with the requirements of this document. In addition, instead of performing any actual testing, initial type testing may make use of:  generally accepted and/or conventional and/or standardised values, in the Clause 2 referenced standards, or in publications that are referred to in these standards;  standardised calculation methods and recognised calculation methods in Clause 2 referenced standards, or in publications that are referred to in these standards; SIST EN 15683-2:2014

1) The terms ‘manufacturer’ and ‘producer’ are understood as being synonymous (see CPD working document NB-CPD/02/019-issued 24 April 2002 – page1). SIST EN 15683-2:2014

b) For fragmentation, 5 test specimens per type are required. Table 2 a) — Number of test specimens distributed over the product range Product
range
Number of test specimens for the mechanical strength measurement – Thickness 6 mm,
flange height 41 mm, minimum width ≥ 2 – Thickness 6 mm,
flange height 41 mm, maximum width
≥ 2 – Thickness 7 mm,
flange height 60 mm, minimum width ≥ 2 – Thickness 7 mm,
flange height 60 mm, maximum width ≥ 2 TOTAL ≥ 10 NOTE When the production range consists of: - a single thickness, all specimens are of the same thickness; - a single width, all specimens are of the same width.
Thickness 6 mm, flange height 41 mm, maximum width ≥ 2
Thickness 7 mm, flange height 60 mm, minimum width ≥ 2
Thickness 7 mm, flange height 60 mm, maximum width ≥ 2 Total
(min.10) > 0,1 to < 0,25 Thickness 6 mm, flange height 41 mm, minimum width ≥ 2
Thickness 6 mm, flange height 41 mm, maximum width ≥ 2
Thickness 7 mm, flange height 60 mm, minimum width ≥ 2 Thickness 7 mm, flange height 60 mm, maximum width ≥ 2 Total
(min.10) NOTE Tests according to this table are valid for all coated glasses within the respective emissivity ranges.
Minimum 10 NOTE 1 This table covers all enamelled designs. NOTE 2 Mechanical test undertaken with enamelled surface in tension.
Strength measurements outcomes are expressed in force per unit of area and independent from the thickness. Therefore, strength measurements may be performed on a collection of test specimens with different thickness. 5.2.2.3 Test results a) When the mechanical strength is measured, no measured value shall be below that given in 9.4 of EN 15683-1:2013. However, if one value falls below then the manufacturer shall ensure that the results relate to a 5 % probability of breakage at the lower limit of the 95 % confidence interval.
b) In the fragmentation test, no test specimen shall exhibit a fragmentation assessment that does not meet 8.5 of EN 15683-1:2013. 5.2.3 Initial type testing of characteristic’s performances All characteristics in 4.3.2 shall be subjected to initial type testing in accordance with 5.2. Optimising thermal toughening settings specifically for one characteristic may affect negatively the optimised settings for a different characteristic. When performance of both characteristics will be declared, the affected characteristic shall be subject to a further type test. 5.3 Factory production control and inspection of samples in accordance with a prescribed test plan (see 5.1, a) 1) and 2) Factory production control (FPC) means the permanent internal control of production exercised by the manufacturer. All elements, requirements and provisions adopted by the manufacturer shall be documented in a systematic manner in the form of written policies and procedures. This production control system documentation shall ensure a common understanding of quality assurance and enable the achievement of the required product characteristics and the effective operation of the production control system to be checked. Factory production shall be according to Annex A of this document. NOTE A factory production control system similar to EN ISO 9001 made product specific to this document is deemed to satisfy the requirements of this clause. SIST EN 15683-2:2014

There may be a need to involve a third party for the purpose of regulatory marking (see Annex ZA). Table 3 — Characteristics of interest for the factory production control Nr Characteristic Interested parameter related to the characteristic
For details, refer to A Resistance to fire Reaction to fire External fire behaviour - checking incoming glass - checking process control - product control after toughening - labelling outgoing glass product
Annex A B Release of dangerous substances - checking incoming materials Annex A C Bullet resistance Explosion resistance Burglar resistance Pendulum body impact resistance Resistance against sudden temperature Changes and temperature differentials Wind, snow, permanent and imposed load resistance of the glass unit
- checking incoming glass - checking process control - product control after toughening - labelling outgoing glass product
Annex A D Direct airborne sound reduction Thermal properties Radiation properties: – light transmittance and reflection – solar energy characteristic - checking incoming glass - checking process control - product control after toughening
- labelling outgoing product
Annex A
5.5 Continuous surveillance and assessment of the factory production control (see 5.1, a) 3) The continuous surveillance and assessment of the factory production control shall cover the parameters listed in Table 3 in conjunction with Annex A. There may be a need to involve a third party for the purpose of regulatory marking (see Annex ZA). The frequency of production surveillance shall be twice per year for new production facilities or for facilities that do not already have an established factory production control system in accordance with this document. SIST EN 15683-2:2014

Care shall be taken to ensure that any voluntary marking and/or labelling does not cause confusion with respect to the mandatory requirements. NOTE All marking and/or labelling of product to demonstrate compliance with the regulatory requirement is detailed in Annex ZA. 6.2 Product marking The thermally toughened soda lime silicate channel shaped safety glass product shall be marked in accordance with Clause 10 of EN 15683-1:2013. 6.3 Product characteristics The manufacturer or his agent shall organise a system of references that allows for the following:  the identification of exactly which characteristics have to be assessed (see 4.3.2);  those characteristics that will be assessed;  the values, classes, categories, etc. that have been determined for those characteristics. This system shall be documented as part of the evaluation of conformity. 6.4 "Characteristic/performance identification paper" The manufacturer shall prepare a “characteristics/performance identification paper” based on the information collected on the product characteristics (see 6.3). This document shall be part of the manufacturer's technical file and is the basis for the accompanying information as required for regulatory purposes. The "characteristics/performance identification paper" can be a catalogue in any media format (paper, disk, website, etc.), always identifiable by the reference that accompanies the marking with the product. The catalogue shall contain the values or classes of the characteristics for which a performance is declared. If no performance is declared, an indication of no performance determined (NPD) shall be made. NOTE See condition of use of NPD in Annex ZA. The catalogue should not contain any information other than that relevant to the “characteristics/performance identification paper”. SIST EN 15683-2:2014

Factory production control A.1 Factory production control requirements A.1.1 General The FPC system shall consist of procedures, regular inspections and tests and/or assessments and the use of the results to control [raw and other] incoming materials or components, equipment, the production process and the product. NOTE An FPC system conforming with the requirements of EN ISO 9001 and made specific to the requirements of this standard is deemed to satisfy the requirements of this standard. A.1.2 Organisation A.1.2.1 Responsibility and authority The responsibility, authority and the interrelation of all personnel who manage, perform and verify work affecting conformity shall be defined, particularly for personnel who have the organisational freedom and authority to: a) initiate action to prevent the occurrence of product non-conformity; b) identify and record any product non-conformance. A.1.2.2 Management representative for factory production control The manufacturer shall appoint a management representative who, irrespective of other responsibilities, shall have defined authority and responsibility for ensuring that the requirements of this document are implemented and maintained. A.1.2.3 Management review The production control system shall be reviewed by the manufacturer’s management at appropriate intervals in accordance with the manufacturer’s control to ensure its continuing suitability and effectiveness. Records of such reviews shall be maintained for a minimum of 5 years. A.1.3 Control system A.1.3.1 General The manufacturer shall establish and maintain a documented system as a means of ensuring that the product conforms to EN 15683-1. The following requirements hereafter shall be fulfilled. A.1.3.2 Personnel The manufacturer shall use appropriately trained personnel for the operation and inspections of all production and inspection equipment. SIST EN 15683-2:2014
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