ENVIRONMENTAL PRODUCT DECLARATION as per ISO 14025 and EN 15804 Owner of the Declaration
FEICA - Association of the European Adhesive and Sealant Industry
Programme holder
Institut Bauen und Umwelt e.V. (IBU)
Publisher
Declaration number
EPD-FEI-20150301-IBG1-EN
ECO EPD Ref. No.
ECO-00000348
Issue date
14.12.2015
Valid to
13.06.2022
Reactive resins based on epoxy resin, unfilled/solventfree with high content of reactive diluent
www.bau-umwelt.com / https://epd-online.com
Umwelt Produktdeklaration Name des Herstellers – Name des Produkts
1. General Information FEICA - Association of the European Adhesive and Sealant Industry
Reactive resins based on epoxy resin, unfilled/solvent-free with high content of reactive diluent
Programme holder IBU - Institut Bauen und Umwelt e.V. Panoramastr. 1 10178 Berlin Germany
Owner of the Declaration FEICA - Association of the European Adhesive and Sealant Industry Avenue E. van Nieuwenhuyse 4 1160 Brussels Belgium
Declaration number EPD-FEI-20150301-IBG1-EN
Declared product / Declared unit 1 kg reactive resin based on epoxy resin, unfilled/solvent-free; density 1 - 1.25 g/cm³
This Declaration is based on the Product Category Rules: Reaction resin products, 07.2014 (PCR tested and approved by the SVR)
Scope:
Issue date 14.12.2015 Valid to 13.06.2022
This validated Declaration entitles the holder to bear the symbol of the Institut Bauen und Umwelt e.V. It exclusively applies for products produced in Europe and for a period of five years from the date of issue. This EPD may be used by FEICA members and their members provided it has been proven that the respective product can be represented by this EPD. For this purpose a guideline is available at the FEICA secretariat. The members of FEICA are listed on its website. The owner of the declaration shall be liable for the underlying information and evidence; the IBU shall not be liable with respect to manufacturer information, life cycle assessment data and evidences. Verification
Prof. Dr.-Ing. Horst J. Bossenmayer (President of Institut Bauen und Umwelt e.V.)
Dr. Burkhart Lehmann (Managing Director IBU)
The CEN Norm /EN 15804/ serves as the core PCR Independent verification of the declaration according to /ISO 14025/ internally x externally
Mr Olivier Muller (Independent verifier appointed by SVR)
2. Product 2.1 Product description Reactive resins based on epoxy resin, unfilled/solventfree The reactive resins are manufactured in a twocomponent process using epoxy resins and hardening agents. They comply with multiple, often specific tasks in the construction, fitting and repair of structures. By using reactive resins based on epoxy resin, unfilled/solventfree, the fitness for use of structures is decisively improved and their life time extended. The product displaying the highest environmental impacts was used as a representative product for calculating the Life Cycle Assessment results (worst case-approach). 2.2 Application Reactive resins based on epoxy resins, unfilled/solvent-free, are used for the following applications:
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Module 1: Reactive resins for protecting and repairing concrete structures Products for surface protection of concrete, for increasing the durability of concrete and reinforced concrete structures as well as for new concrete and for maintenance and repair work; products for structural bonding for the structural bonding of strengthening materials to an existing concrete structure and products for concrete injection for filling cracks, voids and interstices in concrete Module 2: Reactive resins for liquid-applied bridge deck waterproofing kits Products for liquid-applied waterproofing for use on concrete bridge decks Module 3: Reactive resins for watertight covering kits Watertight covering kits for wet room floors and/or walls inside buildings Module 4: Screed material and floor screeds Products for screed / synthetic resin screed for use in floor constructions
Environmental Product Declaration FEICA - Association of the European Adhesive and Sealant Industry – Reactive resins based on epoxy resin, unfilled/solvent-free with high content of reactive diluent
Module 5: Reactive resins for waterproofing components made of concrete or brickwork and for pre-treating mineral sub-surfaces such as screed or concrete flooring prior to flooring, parquet and tiling work Applications in accordance with the manufacturer's technical documentation / declaration of performance Module 6: Reactive resins for optical design of concrete components Products for usually coloured design of concrete accompanied by less-specified surface protection and improved durability of concrete and reinforced concrete surfaces. The same applies for other mineral subsurfaces such as plaster, stone and brickwork. On account of the susceptibility of epoxy resin layers to weathering factors (yellowing, whiting after extensive weathering), a final polyurethane-based coating is usually applied to epoxy layers in outdoor applications. 2.3 Technical Data Module 1: Reactive resins for protecting and repairing concrete structures The minimum requirements apply in accordance with /EN 1504/ . These are: 1.1 Surface protection systems for concrete – Requirements on performance characteristics for all intended uses in accordance with /EN 1504-2:200501/, Tables 1 and 5: - Permeability to CO2 (/EN 1062-6:2002-10/) - Water vapour permeability (/EN ISO 7783-1/2:2012-02/) - Capillary absorption and permeability to water (/EN 1062-3:2008-04/) - Adhesive strength by pull off test (/EN 1542:199907/) 1.2 Products for structural bonding – Performance characteristics for all intended uses in accordance with Tables 3.1 and 3.2 (manufacturer's declaration of performance)1.3 Products for concrete injection for filling cracks, voids and interstices in concrete– Requirements on performance characteristics for all intended uses in accordance with /EN 1504-5:2005-03/, Table 3: - Injectability (/EN 1771:2004-11/) - Viscosity (/EN ISO 3219:1994-10/) Other performance characteristics in accordance with the manufacturer's technical documentation / declaration of performance Module 2: Reactive resins for liquid-applied bridge deck waterproofing kits The minimum requirements of /ETAG 033/ apply. The performance characteristics must be indicated in accordance with the European Technical Assessment. Module 3: Reactive resins for watertight covering kits The minimum requirements of the /ETAG 022/ apply. The performance characteristics must be indicated in accordance with the European Technical Assessment. Module 4: Screed material and floor screeds The minimum requirements of /EN 13813:2003-01/ apply. For synthetic resin screeds, these are: Bond strength (/EN 13892-8:2003-02/) Reaction to fire (/EN 13501-1:2010-01/) Performance characteristics in accordance with the manufacturer's technical documentation / declaration of performance Module 5: Reactive resins for waterproofing components made of concrete or brickwork and for pre-treating mineral sub-surfaces such as screed or concrete flooring prior to flooring, parquet and tiling work The following minimum requirements must be fulfilled: 3
Name
Value
Unit
Shore hardness A /ISO 7619-1,2/ > 15 Shore hardness D /ISO 7619-1,2/ > 10 Density /EN ISO 2811: 2011-06/ 0,8-1,5 kg/dm³ Viscosity /EN ISO 3219: 1994-10/ < 100 Pa s Other performance characteristics are in accordance with the manufacturer's technical documentation / Declaration of Performance / Declaration of Conformity Module 6: Reactive resins for optical design of concrete components Physical data on the coating material and/or coating must be indicated in accordance with the respective product standards; these can include, for example: - Viscosity (/EN ISO 3219:1994-10/) - Density (/EN ISO 2811:2011-06/) - Pendulum damping (/ISO 1522:2007-04/) - Reaction to fire (/EN 13501-1:2010-01/) - Tensile strength (/EN 13892-8:2003-02/) Other performance characteristics are in accordance with the manufacturer's technical documentation / declaration of performance.
2.4 Placing on the market / Application rules For the placing on the market in the EU/EFTA (with the exception of Switzerland) products falling under the Regulation (EU) No 305/2011 need a Declaration of Performance taking into consideration either the relevant harmonised European standard or the European Technical Assessment and the CE-marking. For the application and use of the products the respective national provisions apply. 2.5 Delivery status Liquid or pasty in containers made of tinplate or plastic appropriately prepared in separate or combi-containers for the practical mixing ratio. One kg of product in individual containers. Sealants in plastic cartridges and poly-tube bags made of foil compound materials. Typical container sizes contain 10 to 25 kg of material. For more extensive applications, vats containing approx. 200 kg or IBCs containing more than 1 tonne are also used. A sheet steel container was modelled for the Life Cycle Assessment. 2.6 Base materials / Ancillary materials The reactive resins based on epoxy, unfilled/solventfree, comprise a resin and a crosslinking agent component. The resin component (A-component) contains Diglycidylether based on Bisphenol-A or Bisphenol-F resins (MW < 700). Hardening occurs when installed on site with the crosslinking agent component. For this purpose, polyamines, polyamides, polyamine adducts or mixtures of the same are used. The components can contain so-called reactive diluting agents (glycidether) and other auxiliaries such as accelerators, catalysts, wetting agents, foam regulators and viscosity regulators for fine adjustment of the product properties. The mixing ratio for resin and crosslinker is adjusted in accordance with the stoichiometric requirements. Product crosslinking starts immediately after mixing the components. On average, the products covered by this EPD contain the following range of base materials and auxiliaries: Crosslinker component: ~ 10 - 25% Reactive diluting agent: ~ 75 - 90% Other: <1.5%
The ranges referred to above are average values and the composition of products complying with the EPD can deviate from the concentration volumes referred to in individual cases. More detailed information is provided by the respective manufacturer (e.g. on product data sheets). In individual cases, it is possible that substances on the list of particularly harmful substances for inclusion in Annex XIV of the /REACH/ Ordinance are included in concentrations of more than 0.1%. If this is the case, this information can be found on the respective safety data sheet. 2.7 Manufacture The formulated product components are usually mixed from the ingredients in batch mode and packaged for delivery, whereby quality and environmental standards in accordance with /ISO 9001:2008-12/ and the provisions outlined in the relevant regulations such as the Industrial Safety Regulation and Federal Pollution Control Act are adhered to. 2.8
Environment and health during manufacturing As a general rule, no other environmental protection measures other than those specified by law are necessary. 2.9 Product processing/Installation Reactive resins based on epoxy resin, unfilled/solventfree, are processed by trowelling/knife-coating or rolling, pouring, spraying or injection, whereby health and safety measures (hand and eye protection, ventilation, respiratory equipment) are to be taken and consistently adhered to in accordance with the information on the safety data sheet and conditions on site. Reactive resins based on epoxy, unfilled/solvent-free, react after mixing resin and crosslinking agent under heat generation (exothermicity). The mixed components must therefore be processed swiftly within the pot life indicated. If larger volumes of the mixture remain in the container, this can lead to overheating and decomposition. In the case of reactively diluted products, exothermicity is particularly strong. VOCemissions may occur. 2.10 Packaging A detailed description of packaging is provided in section 2.5. Empty containers and clean foils can be recycled. 2.11 Condition of use During the use phase, reactive resins based on epoxy, unfilled/solvent-free, are crosslinked and essentially comprise an inert, three-dimensional network. They are long-lasting products which protect our buildings in the form of primer, coatings or sealings and make a significant contribution towards retaining their function and long-term value. 2.12 Environment and health during use Option 1 – Products for applications outside indoor areas with permanent stays by people During use, reactive resins based on epoxy, unfilled/solvent-free, lose their reactivity and are inert. No risks are known for water, air and soil if the products are used as designated. Option 2 – Products for applications inside indoor areas with permanent stays by people
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When used in indoor areas with permanent stays by people, evidence of the emission performance of construction products in contact with indoor air must be submitted according to national requirements. No further influences on the environment and health by emanating substances are known. 2.13 Reference service life Reactive resins based on epoxy resin, unfilled/solventfree, comply with various, often specific tasks associated with the construction or refurbishment of building structures. They decisively improve the usability of building structures and significantly extend their Reference Service Life. The anticipated Reference Service Life depends on the specific installation situation and associated product exposure. It can be influenced by weather factors as well as by mechanical or chemical loads. 2.14
Extraordinary effects
Fire Even without any special fire safety fittings, the reactive resins based on epoxy, unfilled/solvent-free, comply with the minimum requirements of/EN 13501-1/ for fire class E and Efl. In terms of the volumes used, they only have a subordinate effect on the fire characteristics (e.g. smoke gas development) of a building in which they are installed. As cross-linked epoxy resins involve a duroplastic material, it does not melt or drip with the result that the resins do not contribute to fire spread, whereas the combustibility of cross-linked epoxy resins is greater than that of other duroplastics. Among other substances, formaldehyde and phenol can be formed in the event of a fire. Water The reactive resins based on epoxy, unfilled/solventfree, are chemically inert and water-insoluble. They are often used for protecting building structures from harmful water ingress / the effects of flooding. Mechanical destruction Mechanical destruction of reactive resins based on epoxy resin does not lead to any decomposition products which are harmful to the environment or health. 2.15 Re-use phase According to present knowledge, no environmentallyharmful effects are generally anticipated in landfilling, for example, as a result of de-construction and recycling of building materials to which crosslinked epoxy resin products are adherent. If epoxy systems can be removed from construction products without any noticeable effort, thermal utilisation is a practical recycling variant on account of their energy content. Minor adhesion is not taken into consideration during disposal. It does not interfere with disposal/recycling of the remaining components / building materials. 2.16 Disposal Individual components which can no longer be recycled must be combined at a specified ratio and hardened. Hardened product residue is not special waste. Non-hardened product residue is special waste. Empty, dried containers (free of drops and scraped clean) are directed to the recycling process. Residue
must be directed to proper waste disposal taking consideration of local guidelines. The following European Waste Codes waste (EWC) codes can apply: Hardened product residue: /EWC 2000/532/EC 080112/ with the exception of those covered by /EWC 2000/532/EC08 01 11/ /EWC 2000/532/EC 080410/ with the exception of those covered by /EWC 2000/532/EC 08 04 09/
2.17 Further information More information is available in the manufacturer's product or safety data sheets and is available on the manufacturer's Web sites or on request. Valuable technical information is also available on the associations' Web sites.
3. LCA: Calculation rules 3.1 Declared Unit This EPD refers to the declared unit of 1 kg reactive resin based on epoxy resin, unfilled/solvent-free of density 1 - 1.25 g/cm³ in the mixing ratio required for processing both components in accordance with the PCR Part B for Reactive resin products. Consumption per unit area of the products to be applied extensively can range between only a few hundred grams and more than 1 kg per square metre. In the case of products, which are injected, the application volume depends on the component to be injected. The results of the Life Cycle Assessment provided in this declaration have been calculated from the product with the highest environmental impact (worst-case scenario). Declared unit Name
Declared unit Conversion factor to 1 kg
1 1
kg -
3.2 System boundary Modules A1-A3, A4, A5 and D are taken into consideration in the LCA: A1 Production of preliminary products A2 Transport to plant A3 Production incl. provision of energy, production of packaging as well as auxiliaries and consumables, waste treatment) A4 Transport to site A5 Installation (disposal of packaging & installation losses and emissions during installation) D Credits from incineration of packaging materials & installation losses and recycling the metal container The declaration is therefore from "cradle to gate - with options". 3.3 Estimates and assumptions Where no specific GaBi processes were available, the individual recipe ingredients of formulation were estimated on the basis of information provided by the manufacturer or literary sources.
3.4 Cut-off criteria All raw materials submitted for the formulations and production data were taken into consideration. The manufacture of machinery, plants and other infrastructure required for production of the products under review was not taken into consideration in the LCA. Transport of packaging materials is also excluded. 3.5 Background data Data from the GaBi 6 database was used as background data. Where no background data was available, it was complemented by manufacturer information and literary research. 3.6 Data quality Representative products were applied for this EPD and the product in a group displaying the highest environmental impact was selected for calculating the LCA results. The datasets are less than 5 years old. Production data and packaging are based on details provided by the manufacturer. The formulation used for evaluation refers to a specific product. 3.7 Period under review Representative formulations were accepted by FEICA Ltd and collected in 2011. 3.8 Allocation No allocations were applied for production. A multiinput allocation with a credit for electricity and thermal energy was used for incineration of production residues and packaging materials. The credits achieved through packaging disposal are declared in Module D. 3.9 Comparability Basically, a comparison or an evaluation of EPD data is only possible if all the data sets to be compared were created according to /EN 15804/ and the building context, respectively the product-specific characteristics of performance, are taken into account. In this case, 1 kg reactive resin was selected as the declared unit. Depending on the application, a corresponding conversion factor such as the specific unit area must be taken into consideration.
4. LCA: Scenarios and additional technical information The following technical information forms the basis for the declared modules or can be used for developing specific scenarios in the context of a building evaluation if modules are not declared (MND). Transport to the building site (A4) 5
Litres of fuel Transport distance Capacity utilisation (including empty runs) Gross density of products
0.0016 1000
l/100km km
85
%
1000 -
kg/m3
transported Capacity utilisation volume factor
1250 1
-
Material loss VOC in the air (NMVOC)
0.01 0.02
kg kg
Installation into the building (A5)
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5. LCA: Results DESCRIPTION OF THE SYSTEM BOUNDARY (X = INCLUDED IN LCA; MND = MODULE NOT DECLARED)
Manufacturing
Transport from the gate to the site
Assembly
Use
Maintenance
Repair
Replacement
Refurbishment
Operational energy use
Operational water use
De-construction demolition
Transport
Waste processing
Disposal
ReuseRecoveryRecyclingpotential
END OF LIFE STAGE
USE STAGE
BENEFITS AND LOADS BEYOND THE SYSTEM BOUNDARIES
Raw material supply
PRODUCT STAGE
CONSTRUCTI ON PROCESS STAGE
A1
A2
A3
A4
A5
B1
B2
B3
B4
B5
B6
B7
C1
C2
C3
C4
D
X
MND MND MNR MNR MNR MND MND MND MND MND MND
RESULTS OF THE LCA - ENVIRONMENTAL IMPACT: 1 kg reactive resin based on epoxy resin, unfilled/solvent-free Parameter
Global warming potential [kg CO2-Eq.] Depletion potential of the stratospheric ozone layer [kg CFC11-Eq.] Acidification potential of land and water [kg SO2-Eq.] Eutrophication potential [kg (PO4)3--Eq.] Formation potential of tropospheric ozone photochemical oxidants [kg ethene-Eq.] Abiotic depletion potential for non-fossil resources [kg Sb-Eq.] Abiotic depletion potential for fossil resources [MJ]
A1-A3
1.17E+1 1.17E-9 2.25E-2 3.42E-3 3.80E-3 4.44E-5 1.85E+2
4.91E-2 2.02E-13 1.26E-4 3.11E-5 -3.41E-5 1.93E-9 6.76E-1
9.15E-2 3.84E-13 1.39E-5 2.58E-6 7.22E-3 1.10E-9 2.01E-2
-1.50E-1 -1.01E-11 -5.43E-4 -4.40E-5 -7.46E-5 -4.53E-9 -1.55E+0
RESULTS OF THE LCA - RESOURCE USE: 1 kg reactive resin based on epoxy resin, unfilled/solvent-free Parameter
Renewable primary energy as energy carrier Renewable primary energy resources as material utilization Total use of renewable primary energy resources Non-renewable primary energy as energy carrier Non-renewable primary energy as material utilization Total use of non-renewable primary energy resources Use of secondary material Use of renewable secondary fuels Use of non-renewable secondary fuels Use of net fresh water
[MJ] [MJ] [MJ] [MJ] [MJ] [MJ] [kg] [MJ] [MJ] [m³]
8.99E+0 0.00E+0 8.99E+0 1.69E+2 3.00E+1 1.99E+2 0.00E+0 0.00E+0 0.00E+0 3.92E-2
IND IND 3.79E-2 IND IND 6.79E-1 0.00E+0 0.00E+0 0.00E+0 6.65E-5
IND IND 2.25E-3 IND IND 2.38E-2 0.00E+0 0.00E+0 0.00E+0 2.35E-4
IND IND -2.27E-2 IND IND -1.60E+0 0.00E+0 0.00E+0 0.00E+0 -1.91E-4
RESULTS OF THE LCA – OUTPUT FLOWS AND WASTE CATEGORIES: 1 kg reactive resin based on epoxy resin, unfilled/solvent-free Parameter
Hazardous waste disposed Non-hazardous waste disposed Radioactive waste disposed Components for re-use Materials for recycling Materials for energy recovery Exported electrical energy Exported thermal energy
[kg] [kg] [kg] [kg] [kg] [kg] [MJ] [MJ]
4.89E-3 6.92E-2 5.54E-3 0.00E+0 0.00E+0 0.00E+0 0.00E+0 0.00E+0
3.22E-7 9.66E-5 9.27E-7 0.00E+0 0.00E+0 0.00E+0 0.00E+0 0.00E+0
6.99E-9 1.38E-3 1.47E-6 0.00E+0 0.00E+0 0.00E+0 1.14E-1 2.67E-1
-6.38E-9 1.76E-3 -1.80E-5 0.00E+0 0.00E+0 0.00E+0 0.00E+0 0.00E+0
6. LCA: Interpretation All impacts are associated with the production phase (A1-A3). The most significant contribution to the production phase impacts is the upstream production of raw materials as main driver. Another relevant contributor in the production phase, in the category of Abiotic Depletion Potential Elements (ADPE), is the steel sheet used as a packaging material. The majority of life cycle energy consumption takes place during the production phase (A1-A3). Significant contributions to Primary Energy Demand – Nonrenewable (PENRT) derive from the energy resources used in the production of raw materials. The largest contributor to Primary Energy Demand – Renewable (PERT) is the consumption of renewable energy resources required for the generation and supply of electricity. During manufacturing (A1-A3) some 7
influence also arises due to the wooden pallets used as packaging that need solar energy for photosynthesis. It should be noted that Primary Energy Demand – Renewable (PERT) generally represents a small percentage of the production phase primary energy demand with the bulk of the demand coming from non-renewable energy resources. Transportation to the construction site (A4) and the installation process (A5) make a negligible contribution to almost all impacts. The only exception is the photochemical ozone creation potential (POCP) that is significantly influenced by the installation of the product due to emissions of benzyl alcohol of maximum 2%. This leads to a contribution of the installation phase of up to 80% on the overall life cycle of the product.
Emissions associated with the manufacturing of products (A3) only have a minor influence on POCP. In module A4, transport to construction site, values for POCP are negative due to emission profile modelled for the selected transportation process and of the characterisation method used in CML 2001 for the calculation of the POCP.
Scrap burdens and energy credit from incineration of packaging material reported in module D are not important (contribution <2.5% for most results). CO2 is the most important contributor to Global Warming Potential (GWP). For the Acidification Potential (AP), NOx and SO2 contribute to the largest share.
7. Requisite evidence VOC Special tests and evidence have not been carried out or provided within the framework of drawing up this Model EPD. Some member states require special documentation on VOC emissions into indoor air for specific areas of application. This documentation, as well as documentation for voluntary VOC labelling, has to be provided separately and is specific for products in question. Evidence pertaining to VOC emissions shall show either an attestation of compliance with, or documentation of test data that are required in, any of the existing regulations or in any of the existing voluntary labeling programs for low-emitting products, as far as these (1) include limits for the parameters TVOC, TSVOC, carcinogens, formaldehyde, acetaldehyde, LCI limits for individual substances (including but not limited to the European list of harmonized LCIs), and the R value; (2) base their test methods on /CEN/TS 16516/ (or /EN 16516/, after the on-going revision of /CEN/TS 16516/); (3) perform testing and apply the limits after 28 days storage in a ventilated test chamber, under the conditions specified in /CEN/TS 16516/; some regulations and programs also have limits after 3 days, on top of the 28 days limits;
The table above provides an overview of the most relevant regulations and specifications as of April 2015, as regards requirements after 28 days storage in a ventilated test chamber. Some details may be
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(4) express the test results as air concentrations in the European Reference Room, as specified in /CEN/TS 16516/. Examples of such regulations are the Belgian /Royal Decree C-2014/24239/, or the German /AgBB/. Examples of such voluntary labeling programs are EMICODE, Blue Angel or Indoor Air Comfort. Relevant test results shall be produced either by an /ISO 17025/ accredited commercial test lab, or by a qualified internal test lab of the manufacturer. Examples for the applied limits after 28 days storage in a ventilated test chamber are: TVOC: 1000 µg/m³ TSVOC: 100 µg/m³ Each carcinogen: 1 µg/m³ Formaldehyde: 100 µg/m³ LCI: different per substance involved R value: 1 (meaning that, in total, 100% of the combined LCI values must not be exceeded). Informative Annexes (2 tables): The table shown below is an overview of the most relevant regulations and specifications as of April 2015, as regards requirements after 3 days storage in a ventilated test chamber.
missing in the table due to lack of space. Values given represent maximum values/limits.
8. References PCR 2013, Part A Institut Bauen und Umwelt e.V., Berlin (pub.): Product Category Rules for Construction Products from the range of Environmental Product Declarations of Institut Bauen und Umwelt (IBU), Part A: Calculation Rules for the Life Cycle Assessment and Requirements on the Background Report; 2013-04 www.bau-umwelt.de PCR 2012, Part B Product Category Rules for Building Products, Part B: Requirements on the EPD for reactive resin products, 2012-07 www.bau-umwelt.de 2000/532/EC Commission decision dated 3 May 2000 replacing decision 94/3/EC on a waste directory in accordance with Article 1 a) of Council Directive 75/442/EEC on waste and Council decision 94/904/EC on a directory 9
of hazardous waste in terms of Article 1, paragraph 4 of Directive 91/689/EEC on hazardous waste EN 923 Adhesives -Terms and definitions EN ISO 16000:2010-10 Plastic piping systems – Systems within the building structure – Mounting and securing components in test devices for thermal loads by a single burning object EN 1502-2:2005-01 Products and systems for the protection and repair of concrete structures – Definitions, requirements, quality control and evaluation of conformity – Part 2: Surface protection systems for concrete EN 1504-4:2005-02 Products and systems for the protection and repair of concrete structures – Definitions, requirements, quality
control and evaluation of conformity – Part 4: Structural bonding EN 1504-5:2012-07 Products and systems for the protection and repair of concrete structures – Definitions, requirements, quality control and evaluation of conformity – Part 5: Concrete injection EN 13813:2003-01 Screed material and floor screeds – Screed materials – Properties and requirements ETAG 022:2007-07 Guidance for European Technical Approval of watertight Covering Kits for Wet Room floors and or walls, Part 1: Liquid-applied coverings with or without wearing surface ETAG 033:2010-09 Guideline for European Technical Approval of liquidapplied coverings for concrete bridges CEN/TS 14472-1 to 4:2003-10 Resilient, textile and laminate floor coverings – Design, preparation and installation – Part 1: General; Part 2: Textile floor coverings; Part 3: Laminate floor coverings; Part 4: Resilient floor coverings CEN/TS 15717:2008-07 Parquet flooring – General guideline for installation EN 1062-6: 2002-10 Paints and varnishes – Coating materials and coating systems for exterior masonry and concrete – Part 6: Determination of carbon dioxide permeability EN ISO 7783: 2012-02 Paints and varnishes – Determination of water-vapour transmission properties – Cup method EN 1062-3: 2008-04 Paints and varnishes – Coating materials and coating systems for exterior masonry and concrete – Part 3: Determination of liquid water permeability EN 1542:1999-07 Products and systems for the protection and repair of concrete structures – Test methods – Measurement of bond strength by pull-off EN 1771:2004-11 Products and systems for the protection and repair of concrete structures - Test methods - Determination of injectability and testing tensile splitting strength EN ISO 3219:1994-10 Plastics – Polymers/Resins in liquid state or as emulsions or dispersions – Determination of viscosity using a rotational viscometer with defined shear rate EN ISO 9514:2005-07 Paints and varnishes – Determination of the pot life of multi-component coating systems – Preparation and conditioning of samples and guidelines for testing EN 13892-8:2003-02 Methods of test for screed materials – Part 8: Determination of bond strength EN 13501-1:2010-01 10
Classification of building products and types by fire performance – Part 1: Classification with the results of tests on fire performance by building products EN ISO 2811-1 to 4: 2011-06 Part 1: Pyknometer method, Part 2: Immersed body method; Part 3: Oscillation method; Part 4: Pressure cup method EN ISO 1522:2007-04 Paints and varnishes – Pendulum damping test EWC 080112: 2000/532/EC Paint and varnish waste EWC 080111: 2000/532/EC Waste paints and varnishes containing solvents or other dangerous substances EWC 080410: 2000/532/EC Adhesive and sealant compound waste EWC 080409: 2000/532/EC Waste adhesives and sealants containing solvents or other dangerous substances EN ISO 9001:2008-12 Quality management systems – Requirements ISO 7619-1:2012-02 Rubber, vulcanized or thermoplastic - Determination of indentation hardness - Part 1: Durometer method (Shore hardness) ISO 7619-2:2012-02 Rubber, vulcanized or thermoplastic - Determination of indentation hardness - Part 2: IRHD pocket meter method REACH Directive (EG) No. 1907/2006 of the European Parliament and of the Council dated 18 December 2006 on the registration, evaluation, approval and restriction of chemical substances (REACH), for establishing a European Agency for chemical substances, for amending Directive 1999/45/EC and for annulment of Directive (EEC) No. 793/93 of the Council, Directive (EC) No. 1488/94 of the Commission, Guideline 76/769/EEC of the Council and Guidelines 91/155/EEC, 93/67/EEC, 93/105/EC and 2000/21/EC of the Commission. ISO 16000-3:2002-08 Indoor air – Part 3: Determination of formaldehyde and other carbonyl compounds by sampling using a pump ISO 16000-6:2004-12 Indoor air – Part 6: Determination of volatile organic compounds indoors and in test chambers by sampling on TENAX TA®, thermal desorption and gas chromatography using MS or FID EN ISO 16000-9:2008-04 Indoor air – Part 9: Determination of the emission of volatile organic compounds from building products and furnishings – Emission test chamber method EN ISO 16000-11:2006-06 Indoor air – Part 11: Determination of the emission of volatile organic compounds from building products and furnishings – Sampling, storage of samples and
preparation of test specimens CEN/TS 16516:2013-10 Construction products - Assessment of release of dangerous substances - Determination of emissions into indoor air
GaBi 6 2014b GaBi 6: Documentation of GaBi 6 data sets from the data base for comprehensive analysis LBP, University of Stuttgart and thinkstep AG, 2014 http://documentation.gabi-software
Royal Decree C-2014/24239 Belgisch Staatsblad 8 MEI 2014, p. 60603. — Koninklijk besluit tot vaststelling van de drempelniveaus voor de emissies naar het binnenmilieu van bouwproducten voor bepaalde geoogde gebruiken
Institut Bauen und Umwelt Institut Bauen und Umwelt e.V., Berlin(pub.): Generation of Environmental Product Declarations (EPDs);
AgBB Committee for Health-related Evaluation of Building Products: health-related evaluation of emissions of volatile organic compounds (VOC and SVOC) from building products; status: June 2012 www.umweltbundesamt.de/produkte/bauprodukte/agb b.htm EMICODE GEV – Gemeinschaft Emissionskontrollierte Verlegewerkstoffe, Klebstoffe und Bauprodukte e. V. (pub.).www.emicode.de GaBi 6 2014 GaBi 6: Software and database for comprehensive analysis. LBP, University of Stuttgart and thinkstep AG, 2014
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General principles for the EPD range of Institut Bauen und Umwelt e.V. (IBU), 2013/04 www.bau-umwelt.de
ISO 14025 DIN EN ISO 14025:2011-10: Environmental labels and declarations — Type III environmental declarations — Principles and procedures EN 15804 EN 15804:2012-04+A1 2013: Sustainability of construction works — Environmental Product Declarations — Core rules for the product category of construction products
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