SIST EN 13166:2013+A1:2015

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Toplotnoizolacijski proizvodi za stavbe - Proizvodi iz fenolne pene (PF) - SpecifikacijaWärmedämmstoffe für Gebäude - Werkmäßig hergestellte Produkte aus Phenolharzschaum (PF) - SpezifikationProduits isolants thermiques pour le bâtiment - Produits manufacturés en mousse phénolique (PF) - SpécificationThermal insulation products for buildings - Factory made phenolic foam (PF) products - Specification91.100.60Thermal and sound insulating materialsICS:Ta slovenski standard je istoveten z:EN 13166:2012+A1:2015SIST EN 13166:2013+A1:2015en,fr,de01-april-2015SIST EN 13166:2013+A1:2015SLOVENSKI
STANDARDSIST EN 13166:20131DGRPHãþD



SIST EN 13166:2013+A1:2015



EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 13166:2012+A1
February 2015 ICS 91.100.60 Supersedes EN 13166:2012English Version
Thermal insulation products for buildings - Factory made phenolic foam (PF) products - Specification
Produits isolants thermiques pour le bâtiment - Produits manufacturés en mousse phénolique (PF) - Spécification
Wärmedämmstoffe für Gebäude - Werkmäßig hergestellte Produkte aus Phenolharzschaum (PF) - Spezifikation This European Standard was approved by CEN on 6 October 2012 and includes Amendment 1 approved by CEN on 15 December 2014.
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 © 2015 CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Members. Ref. No. EN 13166:2012+A1:2015 ESIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 2 Contents Page Foreword .4 1 Scope .6 2 Normative references .6 3 Terms, definitions, symbols, units and abbreviated terms .7 4 Requirements . 11 5 Test methods . 17 6 Designation code . 19 7 Assessment and Verification of the Constancy of Performance (AVCP) . 20 8 Marking and labelling . 21 Annex A (normative)
Determination of the declared values of thermal resistance and thermal conductivity . 22 Annex B (normative)
!Product type determination" (!PTD") and factory production control (FPC) . 24 Annex C (normative)
Determination of the aged values of thermal resistance and thermal conductivity . 28 Annex D (informative)
Additional properties . 33 Annex E (normative)
PF multi-layered thermal insulation products . 34 Annex ZA Annex ZA (informative)
!Clauses of this European Standard addressing the provisions of the EU Construction Products Regulation". 36 Bibliography . 47
Tables Table 1 — Tolerances for length and width . 12 Table 2 — Classes for thickness tolerances . 12 Table 3 — Tolerances for deviation from flatness . 13 Table 4 — Dimensional stability under specified temperature and humidity conditions . 14 Table 5 — Levels for compressive strength . 14 Table 6 — Levels for tensile strength perpendicular to faces . 15 Table 7 — Levels for short term water absorption by partial immersion . 16 Table 8 — Levels for long term water absorption by partial immersion . 16 Table 9 — Test methods, specimens and conditions . 18 Table A.1 — Values for k for one side 90 % tolerance interval with a confidence level of 90 % . 23 Table B.1 — Minimum number of tests for !PTD" and minimum product testing frequencies . 24 Table B.2 — Minimum product testing frequencies for the reaction to fire characteristics (1 of 2) . 26 Table C.1 — Test times for product thicknesses . 30 SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 3 Table C.2 — Increments to be added to accelerated aged values of thermal conductivity to obtain the time averaged value over 25 years (W/m.K) . 31 Table D.1 — Test methods, test specimens, conditions and minimum testing frequencies . 33 Table ZA.1 — Relevant clauses for factory made phenolic foam and intended use . 37 Table ZA.2 — Systems of AVCP . 38 Table ZA.3.1 — Assignment of AVCP tasks for factory made phenolic foam products under system 1 for reaction to fire and system 3 (see Table ZA.2) . 39 Table ZA.3.2 — Assignment of AVCP tasks for factory made phenolic foam products under system 3 (see Table ZA.2). 40 Table ZA.3.3 — Assignment of AVCP tasks for factory made phenolic foam products under combined system 4 for reaction to fire and system 3 (see Table ZA.2) . 41
Figures Figure ZA.1 — Example CE marking information . 44
SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 4 Foreword This document (EN 13166:2012+A1:2015) has been prepared by Technical Committee CEN/TC 88 “Thermal insulation materials and products”, the secretariat of which is held by DIN. This European Standard shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by August 2015, and conflicting national standards shall be withdrawn at the latest by November 2016. Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights. This standard has been prepared under a mandate given to CEN by the European Commission and the European Free Trade Association, and supports essential requirements of EU Directive(s). !For relationship with EU Construction Products Regulation (CPR), see informative Annex ZA, which is an integral part of this standard." This document supersedes !EN 13166:2012". This document includes Amendment 1 approved by CEN on 2014-12-15. The start and finish of text introduced or altered by amendment is indicated in the text by tags !". Compared with EN 13166:2008, the main changes are: a) better harmonisation between the individual standards of the package (EN 13162 to EN 13171) on definitions, requirements, classes and levels; b) new normative annex on multi-layered products; c) changes on some editorial and technical content. This includes the limiting of the use of the slicing method for ageing in Annex C to unfaced and open-faced products and the clearer definition of how the ageing techniques should be applied to various types of PF products; d) addition of links to EN 15715, Thermal insulation products — Instructions for mounting and fixing for reaction to fire testing — Factory made products; e) changes to the Annex ZA. !Amendment 1 modifies EN 13166:2012 identifying those clauses of the standard which are needed for the compliance of the European Standard with the Construction Products Regulation (CPR). This amendment introduces
f) an addition to the foreword; g) replacement and additions in 3.2; h) a new subclause 4.3.11; i) modification of Clause 7; j) modification of Clause 8; SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 5 k) modification of Annex B; l) modification of Table D.1; m) a new Annex ZA." This standard is one of a series of standards for thermal insulation products used in buildings, but this standard may be used in other areas where appropriate. In pursuance of Resolution BT20/1993 revised, CEN/TC 88 have proposed defining the standards listed below as a package of documents. The package of standards comprises the following group of interrelated standards for the specifications of factory made thermal insulation products, all of which come within the scope of CEN/TC 88: EN 13162, Thermal insulation products for buildings — Factory made mineral wool (MW) products — Specification EN 13163, Thermal insulation products for buildings — Factory made expanded polystyrene (EPS) products — Specification EN 13164, Thermal insulation products for buildings — Factory made extruded polystyrene foam (XPS) products — Specification EN 13165, Thermal insulation products for buildings — Factory made rigid polyurethane foam (PU) products — Specification EN 13166, Thermal insulation products for buildings — Factory made phenolic foam (PF) products — Specification EN 13167, Thermal insulation products for buildings — Factory made cellular glass (CG) products — Specification EN 13168, Thermal insulation products for buildings — Factory made wood wool (WW) products — Specification EN 13169, Thermal insulation products for buildings — Factory made expanded perlite board (EPB products) — Specification EN 13170, Thermal insulation products for buildings — Factory made products of expanded cork (ICB) — Specification EN 13171, Thermal insulation products for buildings — Factory made wood fibre (WF) products — Specification The reduction in energy used and emissions produced during the installed life of thermal insulation products exceeds by far the energy used and emissions made during the production and disposal processes. According to the CEN-CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: 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 the United Kingdom. SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 6 1 Scope This European Standard specifies the requirements for factory made phenolic foam products, with or without facings or coatings, which are used for the thermal insulation of buildings. The products are manufactured in the form of boards and laminates. Products covered by this standard are also used in prefabricated thermal insulation systems and composite panels; the performance of systems incorporating these products is not covered. This standard describes product characteristics and includes procedures for testing, evaluation of conformity, marking and labelling. This standard does not specify the required level of a given property to be achieved by a product to demonstrate fitness for purpose in a particular application. The levels required for a given application are to be found in regulations or non-conflicting standards. Products with a declared thermal resistance lower than 0,40 m2„K/W or a declared thermal conductivity greater than 0,050 W/(m„K) at 10 °C are not covered by this standard. This standard does not cover in-situ thermal insulation products, products intended to be used for the thermal insulation of building equipment and industrial installations (covered by EN 14314 [3]). 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 822, Thermal insulating products for building applications — Determination of length and width EN 823, Thermal insulating products for building applications — Determination of thickness EN 824, Thermal insulating products for building applications — Determination of squareness EN 825, Thermal insulating products for building applications — Determination of flatness EN 826, Thermal insulating products for building applications — Determination of compression behaviour EN 1602, Thermal insulating products for building applications — Determination of the apparent density EN 1603, Thermal insulating products for building applications — Determination of dimensional stability under constant normal laboratory conditions (25 °C/50 % relative humidity) EN 1604, Thermal insulating products for building applications — Determination of dimensional stability under specified temperature and humidity conditions EN 1606, Thermal insulating products for building applications — Determination of compressive creep EN 1607, Thermal insulating products for building applications — Determination of tensile strength perpendicular to faces EN 1609, Thermal insulating products for building applications — Determination of short term water absorption by partial immersion SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 7 EN 12086:1997, Thermal insulating products for building applications — Determination of water vapour transmission properties EN 12087, Thermal insulating products for building applications — Determination of long term water absorption by immersion EN 12089:1997, Thermal insulating products for building applications — Determination of bending behaviour EN 12429, Thermal insulating products for building applications — Conditioning to moisture equilibrium under specified temperature and humidity conditions EN 12667:2001, Thermal performance of building materials and products — Determination of thermal resistance by means of guarded hot plate and heat flow meter methods — Products of high and medium thermal resistance EN 12939, Thermal performance of building materials and products — Determination of thermal resistance by means of guarded hot plate and heat flow meter methods — Thick products of high and medium thermal resistance EN 13172:2012, Thermal insulation products — Evaluation of conformity EN 13501-1, Fire classification of construction products and building elements — Part 1: Classification using data from reaction to fire tests EN 13820, Thermal insulating materials for building applications — Determination of organic content EN 13823, Reaction to fire tests for building products — Building products excluding floorings exposed to the thermal attack by a single burning item EN 15715:2009, Thermal insulation products — Instructions for mounting and fixing for reaction to fire testing - Factory made products EN ISO 1182, Reaction to fire tests for products — Non-combustibility test (ISO 1182) EN ISO 1716, Reaction to fire tests for products — Determination of the gross heat of combustion (calorific value) (ISO 1716) EN ISO 4590, Rigid cellular plastics — Determination of the volume percentage of open cells and of closed cells (ISO 4590) EN ISO 9229:2007, Thermal insulation — Vocabulary (ISO 9229:2007) EN ISO 11925-2, Reaction to fire tests — Ignitability of products subjected to direct impingement of flame — Part 2: Single-flame source test (ISO 11925-2) ISO 16269-6:2005, Statistical interpretation of data — Part 6: Determination of statistical tolerance intervals 3 Terms, definitions, symbols, units and abbreviated terms 3.1 Terms and definitions For the purposes of this document, the terms and definitions given in EN ISO 9229:2007 apply with the exception or in addition of the following: SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 8 3.1.1 phenolic foam rigid cellular foam, the polymer structure of which is made primarily from the polycondensation of phenol, its homologues and/or derivatives, with or without aldehydes or ketones 3.1.2 board, slab rigid or semi-rigid (thermal insulation) product of rectangular shape and cross section in which the thickness is uniform and substantially smaller than the other dimensions Note 1 to entry: Boards are usually thinner than slabs. They may also be supplied in tapered form. 3.1.3 level value which is the upper or lower limit of a requirement and given by the declared value of the characteristic concerned 3.1.4 class combination of two levels of the same property between which the performance shall fall 3.1.5 facings functional or decorative surface layer, with a thickness less than 3 mm, e. g. paper, plastic film, fabric or metal foil, which is not considered as separate thermal insulation layer to be added to the thermal resistance of the product 3.1.6 coating functional or decorative surface layer, with a thickness less than 3 mm, usually applied by painting, spraying, pouring or trowelling, which is not considered as separate thermal insulation layer to be added to the thermal resistance of the product 3.1.7 multi-layered thermal insulation product product which can be faced or coated made from two or more layers of a thermal insulation material from the same European Standard, which are bonded together by chemical or physical adhesion either horizontally and/or vertically 3.1.8 composite thermal insulation product product which can be faced or coated made from two or more layers bonded together by chemical or physical adhesion consisting of at least one factory made thermal insulation material layer 3.2 Symbols, units and abbreviated terms For the purposes of this document, the following symbols and units apply. b is the width mm d is the thickness mm dN is the nominal thickness of the product mm ûS is the overall change in flatness mm û0b is the relative change in width % û0d is the relative change in thickness % SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 9 û0l is the relative change in length % ûa is the ageing increment of thermal conductivity (a - i) W/(m„K) K is a factor related to the number of test results available (see Table A.1) – Ka is a factor related to the number of test results of aged thermal conductivity – Ki is a factor related to the number of test results of initial thermal conductivity – l is the length mm 90/90 is the 90 % fractile with a confidence level of 90 % for the thermal conductivity W/(m·K) D is the declared thermal conductivity W/(m„K) i is one test result of thermal conductivity W/(m„K) a is the time averaged value of thermal conductivity over 25 years W/(m.K) u is the design thermal conductivity W/(m·K) mean is the mean thermal conductivity W/(m„K) mean,a is the mean of the time averaged aged values of thermal conductivity W/(m„K) mean,i is the mean of the initial values of thermal conductivity W/(m„K)
is the water vapour diffusion resistance factor – N is the number of test results – R90/90 is the 90 % fractile with a confidence level of 90 % for the thermal resistance m2·K/W RD is the declared thermal resistance m2„K/W Ri is one test result of thermal resistance m2„K/W Ru Is the design thermal resistance m2·K/W Rmean is the mean thermal resistance m2„K/W a is the apparent density kg/m3 Sb is the deviation from squareness on length and width mm/m Sd is the deviation from squareness on thickness mm Smax is the deviation from flatness mm sR is the estimate of the standard deviation of the thermal resistance m2„K/W s is the estimate of the standard deviation of the thermal conductivity W/(m„K) s is the estimate of the standard deviation of the aged values of thermal conductivity W/(m„K) s is the estimate of the standard deviation of the initial values of thermal conductivity W/(m„K) 1b is the bending strength kPa 1c is the compressive stress kPa 1m is the compressive strength kPa 1mt is the tensile strength perpendicular to faces kPa Wlp is the long term water absorption by partial immersion kg/m2 SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 10 Wp is the short term water absorption kg/m2 o is the closed cell content (corrected) % ct is the compressive creep % t is the total thickness reduction % Z is the water vapour resistance m2„h„Pa/mg
AD is the symbol of the declared value of apparent density CC(i1/i2/y) 1c is the symbol of the declared level of compressive creep CS(Y) is the symbol of the declared level of compressive strength CV is the symbol of the declared value of closed cell content DS(N) is the symbol for the declared class for dimensional stability under constant normal laboratory conditions DS(T+) is the symbol of the declared value of dimensional stability at specified temperature DS(T–) is the symbol of the declared value of dimensional stability at –20 °C DS(TH) is the symbol of the declared value of dimensional stability under specified temperature and humidity conditions Li is the symbol for tolerance in length Wi is the symbol for tolerance in width MU is the symbol of the declared value of water vapour diffusion resistance factor T is the symbol of the declared class for thickness tolerance TR is the symbol of the declared level for tensile strength perpendicular to faces WL(P) is the symbol of the declared level for long term water absorption by partial immersion WS is the symbol of the declared level for short term water absorption Z is the symbol of the declared value for the water vapour resistance
Abbreviated terms used in this standard: PF is Phenolic Foam !PTD is Product Type Determination (previously named ITT for Initial Type Test)" FPC is Factory Production Control RtF is Reaction to Fire !AVCP is Assessment and Verification of Constancy of Performance (previously named attestation of conformity) DoP is Declaration of Performance ThIB is Thermal Insulation for Buildings VCP is Verification of Constancy of Performance (previously named evaluation of conformity)" SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 11 4 Requirements 4.1 General Product properties shall be assessed in accordance with Clause 5. To comply with this standard, products shall meet the requirements of 4.2, and the requirements of 4.3 as appropriate. For multi-layered products additional requirements are given in Annex E. NOTE Information on additional properties is given in Annex D. One test result for a product property is the average of the measured values on the number of test specimens given in Table 9. 4.2 For all applications 4.2.1 Thermal resistance and thermal conductivity Thermal resistance and thermal conductivity shall be based upon measurements carried out in accordance with EN 12667 or EN 12939 for thick products. The thermal resistance and thermal conductivity shall be determined in accordance with Annex A and Annex C and declared by the manufacturer according to the following: — the reference mean temperature shall be 10 °C; — the measured value shall be expressed with three significant figures; — for products of uniform thickness, the declared thermal resistance, RD, shall always be declared. The thermal conductivity, D, shall be declared where possible. Where appropriate, for products of non-uniform thickness (i.e. for sloped and tapered products) only the thermal conductivity, D, shall be declared. — the declared thermal resistance, RD, and declared thermal conductivity, D, shall be given as limit values representing at least 90 % of the production, determined with a confidence level of 90 %; — the statistical value of thermal conductivity, 90/90, shall be rounded upwards to the nearest 0,001 W/(m„K) and declared as D in levels with steps of 0,001 W/(m„K); — the declared thermal resistance, RD, shall be calculated from the nominal thickness, dN, and the corresponding thermal conductivity, 90/90; — the statistical value of thermal resistance, R90/90, when calculated from the nominal thickness, dN, and the corresponding thermal conductivity, 90/90, shall be rounded downwards to the nearest 0,05 m2„K/W and declared as RD in levels with steps of 0,05 m2„K/W; — the statistical value of thermal resistance R90/90, for those products for which only the thermal resistance is measured directly, shall be rounded downwards to the nearest 0,05 m2„K/W and declared as RD in levels with steps of 0,05 m2„K/W. NOTE U and RU (design values) may be determined with reference to EN ISO 10456. SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 12 4.2.2 Length and width Length, l, and width, b, shall be determined in accordance with EN 822. No test result shall deviate from the nominal values by more than the tolerances given in Table 1 for the corresponding dimensions. Table 1 — Tolerances for length and width Dimensions in millimetres Dimensions Length Width < 1250 ± 5,0 ± 3,0 1 250 to 2 000 ± 7,5 ± 7,5 2 001 to 4 000 ± 10,0 ± 7,5 > 4000 ± 15,0 ± 10,0 4.2.3 Thickness Thickness, d, shall be determined in accordance with EN 823. No test result shall deviate from the nominal thickness, dN, by more than the tolerance given in Table 2 for the declared class. Table 2 — Classes for thickness tolerances Dimensions in millimetres Nominal thickness Tolerances T1 T2 < 50 ± 2,0 ± 1,5 50 to 100 –2,0 +3,0 ± 1,5 > 100 –2,0 +5,0 ± 1,5 4.2.4 Squareness Squareness shall be determined in accordance with EN 824. The deviation from squareness on length and width, Sb, shall not exceed 5 mm/m. The deviation from squareness on thickness, Sd, shall not exceed 2 mm. 4.2.5 Edge profiles If an edge profile is applied, deviation from the quoted dimensions of the profile shall not exceed 2 mm. 4.2.6 Flatness Flatness of the board shall be determined in accordance with EN 825. The deviation from flatness, Smax, shall not exceed the tolerances given in Table 3 for the corresponding nominal thickness, dN. SIST EN 13166:2013+A1:2015



EN 13166:2012+A1:2015 (E) 13 Table 3 — Tolerances for deviation from flatness Dimensions in millimetres Nominal thickness Tolerances < 50 ≤ 10,0 50 to 100 ≤ T,5 > 100 ≤ 5,0 4.2.7 Reaction to fire of the product as placed on the market Reaction to fire classification of the product as placed on the market shall be determined in accordance with EN 13501-1 and the mounting and fixing rules given in EN 15715. Detailed information about the test conditions and the field of application as stated in the reaction to fire classification report shall be given in the manufacturer’s literature. This classification is compulsory and shall always be included in the CE marking label. 4.2.8 Durability characteristics 4.2.8.1 General The appropriate durability characteristics have been considered and are covered in 4.2.8.2 and 4.2.8.3 and, where appropriate, in 4.3.5 for compressive creep. 4.2.8.2 Durability of reaction to fire of the product as placed on the market against ageing/degradation The reaction to fire performance of PF products as declared by 4.2.7 does not change with time. 4.2.8.3 Durability of thermal resistance and thermal conductivity against ageing/degradation Any change in thermal conductivity and thickness of phenolic
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