Bona Sweden AB P.O. Box 21074 20021 Malmö Sweden Test Report No. B54720-001-002 This report replaces test report 54720-001-002 dated 12.12.2019 Test objective: Evaluation according to GEV-EMICODE Classification Criteria Sample description by client: 19-032 19-033 Sampled by: Not specified Date of sampling: 14.10.2019 Location of sampling: at the client Date of production: 01.10.2019 Date of arrival of sample: 17.10.2019 Test period: 17.10.2019 - 11.12.2019 Date of report: 23.12.2019 Number of pages of report: 21 Testing laboratory: eco-INSTITUT Germany GmbH, Köln except ‡ subcontracted # outside accreditation Test objective fulfilled:  Emission class EMICODE EC 1 PLUS Note: The test results in the report refer exclusively to the test sample submitted by the manufacturer. The report serves exclusively for submission to the awarding authority for the above-mentioned quality mark. The report is not permitted to be used in product and company advertising. More information at www.eco-institut.de/en/advertising Page 2 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Content Sample View ............................................................................................................................................................................................... 3 Evaluation# .................................................................................................................................................................................................. 4 Summary evaluation# ................................................................................................................................................................................. 5 Laboratory report ........................................................................................................................................................................................ 6 1 Emission analysis............................................................................................................................................................................... 6 1.1 Sample A001, Sample A002, Volatile Organic Compounds after 3 days.................................................................................. 7 1.2 Sample A001, Sample A002, Volatile Organic Compounds after 28 days..............................................................................11 Appendix ...................................................................................................................................................................................................14 I Sampling sheet.....................................................................................................................................................................14 II Definition of terms ...............................................................................................................................................................15 III List of calibrated Volatile Organic Compounds (VOC) .........................................................................................................18 IV Commentary on emission analysis......................................................................................................................................20 V Explanation of Specific Emission Rate SER ..........................................................................................................................21 Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 3 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Sample View Internal Description by customer Condition upon delivery Type of sample Sample-no. A001 19-032 without objection Parquet finish A002 19-033 without objection Hardener A001: 19-032 A002: 19-033 Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 4 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Evaluation# The products 19-032 and 19-033 has been tested on behalf of Bona Sweden AB. This evaluation bases on the test criteria “GEV – Surface treatment products, Award of EMICODE” (Issue: 22.05.2019) of the Association for the Control of Emissions in Products for Flooring Installation, Adhesives and Building Materials (GEV). The results documented in the test report were evaluated as follows.1 Requirement hold Test parameter Result Requirement [yes/no] Emission analysis Measurement time: 3 days after test chamber loading Carcinogenic substances (acc. to EU cat. 1A and 1B and < 1 µg/m³ ≤ 10 µg/m³ yes TRGS 905, sum) Formaldehyde 2 µg/m³ ≤ 50 µg/m³ yes Acetaldehyde < 2 µg/m³ ≤ 50 µg/m³ yes Acetaldehyde and Formaldehyde (sum) 0.002 ppm ≤ 0.05 ppm 1) yes Measurement time: 28 days after test chamber loading Carcinogenic substances (acc. to EU cat. 1A and 1B and < 1 µg/m³ ≤ 1 µg/m³ yes TRGS 905, sum) Total concentration of volatile and semivolatile volatile organic compounds without acetic acid 81 µg/m³ ≤ 100 µg/m³ 3) yes, EC 1 PLUS (TVOC +TSVOCDIN EN 16516) 2) 6) Total concentration of semivolatile organic compounds 34 µg/m³ ≤ 40 µg/m³ 3) yes, EC 1 PLUS (TSVOC DIN EN 16516) 2) Sum VOC without LCI 8 µg/m³ ≤ 40 µg/m³ 4) yes R value 1.00 ≤ 1 4) yes 1) 1 ppm Formaldehyde ≙ 1250 µg/m³ Formaldehyde; 1 ppm Acetaldehyde ≙ 1820 µg/m³ Acetaldehyde 2) for TVOC and TSVOC only substances ≥ 5 µg/m³ are considered 3) requirement value for emission class EMICODE EC 1 PLUS 4) additional requirement value for emission class EMICODE EC 1 PLUS 5) Acetic acid is not considered for the evaluation of EMICODE 1 If a measurement result that slightly exceeds the specification is assessed as “not fulfilled”, this is based on the agreement of the “shared risk of measurement uncertainty (shared risk approach)”. According to this, the probability that the statement is correct is ≥ 50%. Similarly, a result slightly below the specification value also only has a probability of ≥ 50 % of being compliant. I.e., the risk of making a false negative statement regarding the fulfilment of the specification is just as high as the risk of making a false positive statement (more information at https://www.eco- institut.de/en/2019/07/measurement_uncertainty/). Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 5 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Summary evaluation# The product 19-032 19-033 meets the requirements of the Emission Class EMICODE EC 1 PLUS. Cologne, 23.12.2019 Arne Herzog (Project Manager) Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 6 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Laboratory report 1 Emission analysis Test method DIN EN 16516:2018-01 Testing and evaluation of the release of dangerous substances; determination of emissions into indoor air A001, A002, Preparation of test sample Date: 05.11.2019 Pre-treatment: Application on glass into a glass dish with a brush .. mixing ratio sample A001 and A002 10:1 application quantity 150 g/m², pre-conditioning outside of the test chamber 72 hours Masking of backside: not applicable Masking of edges: no Relationship of unmasked not applicable edges to surface: Loading: related to area Dimensions: 25 cm x 20 cm [7.5 g] A001, A002, Test chamber conditions according to DIN ISO 16000-9:2008-04 Chamber volume: 0.125 m³ Temperature: 23°C ± 1°C Relative humidity: 50 % ± 1 % Air pressure: normal Air: cleaned Air change rate: 0.5 h-1 Air velocity: 0.3 m/s Loading: 0,4 m²⁄m³ Specific air flow rate: 1.25 m³⁄(m² · h) Air sampling: 3 days after test chamber loading 28 days after test chamber loading Analytics Aldehydes and Ketones DIN ISO 16000-3:2013-01 Limit of determination: 2 µg/m³ Volatile Organic Compounds DIN ISO 16000-6:2012-11 Limit of determination: 1 µg/m³ (1,4-Cyclohexanedimethanol, Diethylene glycol, 1,4-Butanediol, Linalyl acetate: 5 µg/m³) Note for analysis: not specified Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 7 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 1.1 Sample A001, Sample A002, Volatile Organic Compounds after 3 days Test objective: Volatile Organic Compounds (VOC), test chamber, air sampling 3 days after test chamber loading Test result: Sample: A001: 19-032 A002: 19-033 Toluene- No. Substance CAS No. RT Concentration+ CMR LCI R-value equivalent Substances Substances Classifi- AgBB 2018 ≥ 1 µg/m³ ≥ 5 µg/m³ cation++ [min] [µg/m³] [µg/m³] [µg/m³] Glycols, Glycol ethers, 6 Glycol esters Propylene glycol (1,2- 6-1 57-55-6 7.38 4 2100 0.00 Dihydroxypropane) Ethylene glycol- Group 6-3 monobutylether (2- 111-76-2 11.12 3 1600 0.00 3 Butoxyethanol) Dipropylene glycol 6-12 34590-94-8 13.22 5 3100 0.00 monomethyl ether Dipropylene glycol dimethyl 6-39 111109-77-4 13.34+13.64 2 1300 0.00 ether 6-40 Propylene carbonate 108-32-7 13.19 530 110 1000 0.53 7 Aldehydes Carc. 1B 7-22 Formaldehyde 50-00-0 2 100 0.02 Muta. 2 9 Acids 9-1 Acetic acid 64-19-7 4.76 6 1200 0.01 12 Others 2-Methyl-4-isothiazoline-3- 12-10 2682-20-4 17.24 4 100 0.04 one (MIT) 12-11 Triethylamine 121-44-8 6.55 80 51 60 1.33 Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 8 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Toluene- No. Substance CAS No. RT Concentration+ CMR LCI R-value equivalent Substances Substances Classifi- AgBB 2018 ≥ 1 µg/m³ ≥ 5 µg/m³ cation++ [min] [µg/m³] [µg/m³] [µg/m³] Other identified substances 13 in addition to LCI list Nitrogen compound m/z 86 6.85-8.1 18 18 58 101* Pyrrolidinone 14.75 1 m/z 69 111 131* 22.99 53 53 Carboxylic acid ester m/z 24.99 5 5 129 111 55* m(Z 55 84 100* 25.1 4 Glycol ether m/z 45 89 26.44 51 51 111* + identified and calibrated substances, substance specific calculated ++ Classification according to Regulation (EG) N° 1272/2008: Categories Carc. 1A and 1B, Muta. 1A and 1B, Repr. 1A and 1B, TRGS 905: K1A, K1B, M1A, M1B, R1A, R1B; IARC: Group 1 and 2A, DFG MAK-list: Categorie III1 and III2 * unidentified substances, calculated as toluene equivalent reported with significant mass fragments as mass-to-charge ratio (m/z) Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 9 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Concentration SERa Carcinogenic, mutagenic and reproductive toxic components* after 3 days [µg/(m²・h)] [µg/m³] CMR 1: VOC (incl. VVOC and SVOC) with the following categorisations: Regulation (EC) No. 1272/2008: Category Carc. 1A and 1B, Muta. 1A and 1B, Repr. 1A and 1B; TRGS 905: K1A, K1B, M1A, M1B, R1A, R1B; <1 < 1.25 IARC: Group 1 and 2A; DFG (MAK list): Categories III1, III2 (Sum) C 1: VOC (incl. VVOC and SVOC) with the following categorisations: Regulation (EG) Nr. 1272/2008: Category Carc. 1A u. 1B <1 < 1.25 (Sum) Concentration SERa TVOC, Total volatile organic compounds after 3 days [µg/(m²・h)] [µg/m³] Sum of VOC according to DIN EN 16516 240 300 Sum of VOC according to AgBB 2018 / DIBt 700 870 Sum of VOC according to eco-INSTITUT-Label 710 890 Sum of VOC according to ISO 16000-6 270 340 Concentration SERa TSVOC, Total semi volatile organic compounds after 3 days [µg/(m²・h)] [µg/m³] Sum of SVOC according to DIN EN 16516 51 64 Sum of SVOC without LCI according to AgBB 2018 / DIBt 51 64 Sum of SVOC without LCI according to eco-INSTITUT-Label 55 69 Sum of SVOC with LCI according to AgBB 2018 / DIBt <5 < 6.25 Concentration SERa TVVOC, Total very volatile organic compounds after 3 days [µg/(m²・h)] [µg/m³] Sum of VVOC according to AgBB 2018 / DIBt and Belgian regulation <5 < 6.25 Sum of VVOC according to eco-INSTITUT-Label 2 2.5 *Excluding formaldehyde (Carc. 1B) due to an assumed "practical threshold" under which a significant carcinogenic risk is no longer to be expected (see Federal Institute for Risk Assessment (2006): Toxicological evaluation of formaldehyde and Federal Environment Agency (2016): Reference value for formaldehyde in indoor air). In the case of a toxicological emission assessment, a single-substance analysis of the formaldehyde concentration is necessary. In the opinion of the committee for Indoor Air Guide Values (Ausschuss für Innenraumrichtwerte) of the Federal Environment Agency, the concentration of 0.1 mg formaldehyde/m3 indoor air, based on a measurement period of half an hour, should not be exceeded, also for a short time (Bundesgesundheitsblatt 2016 · 59: 1040-1044 DOI 10.1007 / s00103 -016-2389-5 © Springer-Verlag Berlin Heidelberg 2016). Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 10 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Concentration SERa Other sums of VOC after 3 days [µg/(m²・h)] [µg/m³] VOC without LCI according to AgBB/DIBt and Belgian regulation (Sum) 76 95 VOC without LCI according to eco-INSTITUT-Label (Sum) 77 96 CMR 2: VOC (incl. VVOC and SVOC) with the following categorisations: Regulation (EC) No. 1272/2008: Category Carc. 2, Muta. 2, Repr. 2; TRGS 905: K3; 2 2.5 IARC: Group 2B; DFG (MAK list): Category III3 (Sum) Sensitising compounds with the following categorisations: DFG (MAK list): Category IV, German Federal Institute for Risk Assessment lists: Cat A, TRGS 907 6 7.5 (Sum) Bicyclic Terpenes (sum) <1 < 1.25 C9 - C14: Alkanes / Isoalkanes as dekane-equivalent (Sum) <1 < 1.25 C4 - C11 Aldehydes, acyclic, aliphatic (Sum) <2 < 2.5 C9 - C15 Alkylated benzenes (Sum) <1 < 1.25 Cresols (Sum) <1 < 1.25 Risk value for assessment of LCI R-value R-value according to eco-INSTITUT-Label 1.94 R-value according to AgBB 2018 / DIBt 1.87 R-value according to Belgian regulation 1.87 R-value according to AFSSET 11.45 Note: Due to different requirements in the respective guidelines, the calculation of TVOC, TVVOC, TSVOC and R-value may result in different values. Short-chain carbonyl compounds (C1-C5) are quantified via HPLC acc. to DIN ISO 16000-3:2013-01. Therefore, no toluene equivalents are given for VVOC. These substances are taken into concern by means of their substance specific calibration via the sum of VVOC acc. to DIN EN 16516:2018-01. For VOC however, the substance specific calibration takes place via HPLC whereas the TVOC is calculated using the toluene equivalent determined via Tenax acc. to DIN EN 16516:2018- 01. Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 11 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 1.2 Sample A001, Sample A002, Volatile Organic Compounds after 28 days Test objective: Volatile Organic Compounds (VOC), test chamber, air sampling 28 days after test chamber loading Test result: Sample: A001: 19-032 A002: 19-033 Toluene- No. Substance CAS No. RT Concentration+ CMR LCI R-value equivalent Substances Substances Classifi- AgBB 2018 ≥ 1 µg/m³ ≥ 5 µg/m³ cation++ [min] [µg/m³] [µg/m³] [µg/m³] Glycols, Glycol ethers, Glycol 6 esters 6-40 Propylene carbonate 108-32-7 12.88 2 1000 0.00 9 Acids 9-1 Acetic acid 64-19-7 4.73 2 1200 0.00 12 Others 12-11 Triethylamine 121-44-8 6.53 60 39 60 1.00 Other identified substances in 13 addition to LCI list m/z 69 111 131* 22.99 8 8 Carboxylic acid ester m/z 129 24.99 2 111 55* m/z 55 84 100* 25.1 1 Glycol ether m/z 45 89 111* 26.44 34 34 + identified and calibrated substances, substance specific calculated ++ Classification according to Regulation (EG) N° 1272/2008: Categories Carc. 1A and 1B, Muta. 1A and 1B, Repr. 1A and 1B, TRGS 905: K1A, K1B, M1A, M1B, R1A, R1B; IARC: Group 1 and 2A, DFG MAK-list: Categorie III1 and III2 * unidentified substances, calculated as toluene equivalent reported with significant mass fragments as mass-to-charge ratio (m/z) Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 12 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Concentration SERa Carcinogenic, mutagenic and reproductive toxic components* after 28 days [µg/(m²・h)] [µg/m³] CMR 1: VOC (incl. VVOC and SVOC) with the following categorisations: Regulation (EC) No. 1272/2008: Category Carc. 1A and 1B, Muta. 1A and 1B, Repr. 1A and 1B; TRGS 905: K1A, K1B, M1A, M1B, R1A, R1B; <1 < 1,25 IARC: Group 1 and 2A; DFG (MAK list): Categories III1, III2 (Sum) C 1: VOC (incl. VVOC and SVOC) with the following categorisations: Regulation (EG) Nr. 1272/2008: Category Carc. 1A u. 1B <1 < 1,25 (Sum) Concentration SERa TVOC, Total volatile organic compounds after 28 days [µg/(m²・h)] [µg/m³] Sum of VOC according to DIN EN 16516 47 59 Sum of VOC according to AgBB 2018 / DIBt 68 85 Sum of VOC according to eco-INSTITUT-Label 74 93 Sum of VOC according to ISO 16000-6 60 75 Concentration after 28 SERa TSVOC, Total semi volatile organic compounds days [µg/(m²・h)] [µg/m³] Sum of SVOC according to DIN EN 16516 34 43 Sum of SVOC without LCI according to AgBB 2018 / DIBt 34 43 Sum of SVOC without LCI according to eco-INSTITUT-Label 35 44 Sum of SVOC with LCI according to AgBB 2018 / DIBt <5 < 6,25 Concentration SERa TVVOC, Total very volatile organic compounds after 28 days [µg/(m²・h)] [µg/m³] Sum of VVOC according to AgBB 2018 / DIBt and Belgian regulation <5 < 6,25 Sum of VVOC according to eco-INSTITUT-Label <1 < 1,25 *Excluding formaldehyde (Carc. 1B) due to an assumed "practical threshold" under which a significant carcinogenic risk is no longer to be expected (see Federal Institute for Risk Assessment (2006): Toxicological evaluation of formaldehyde and Federal Environment Agency (2016): Reference value for formaldehyde in indoor air). In the case of a toxicological emission assessment, a single-substance analysis of the formaldehyde concentration is necessary. In the opinion of the committee for Indoor Air Guide Values (Ausschuss für Innenraumrichtwerte) of the Federal Environment Agency, the concentration of 0.1 mg formaldehyde/m3 indoor air, based on a measurement period of half an hour, should not be exceeded, also for a short time (Bundesgesundheitsblatt 2016 · 59: 1040-1044 DOI 10.1007 / s00103 -016-2389-5 © Springer-Verlag Berlin Heidelberg 2016). Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 13 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Concentration SERa Other sums of VOC after 28 days [µg/(m²・h)] [µg/m³] VOC without LCI according to AgBB/DIBt and Belgian regulation (Sum) 8 10 VOC without LCI according to eco-INSTITUT-Label (Sum) 10 13 CMR 2: VOC (incl. VVOC and SVOC) with the following categorisations: Regulation (EC) No. 1272/2008: Category Carc. 2, Muta. 2, Repr. 2; TRGS 905: K3; <1 < 1,25 IARC: Group 2B; DFG (MAK list): Category III3 (Sum) Sensitising compounds with the following categorisations: DFG (MAK list): Category IV, German Federal Institute for Risk Assessment lists: Cat A, TRGS 907 <1 < 1,25 (Sum) Bicyclic Terpenes (Sum) <1 < 1,25 C9 - C14: Alkanes / Isoalkanes as dekane-equivalent (Sum) <1 < 1,25 C4 - C11 Aldehydes, acyclic, aliphatic (Sum) <2 < 2,5 C9 - C15 Alkylated benzenes (Sum) <1 < 1,25 Cresols (Sum) <1 < 1,25 Risk value for assessment of LCI R-value R-value according to eco-INSTITUT-Label 1.00 R-value according to AgBB 2018 / DIBt 1.00 R-value according to Belgian regulation 1.00 R-value according to AFSSET 8.57 Note: Due to different requirements in the respective guidelines, the calculation of TVOC, TVVOC, TSVOC and R-value may result in different values. Short-chain carbonyl compounds (C1-C5) are quantified via HPLC acc. to DIN ISO 16000-3:2013-01. Therefore, no toluene equivalents are given for VVOC. These substances are taken into concern by means of their substance specific calibration via the sum of VVOC acc. to DIN EN 16516:2018-01. For VOC however, the substance specific calibration takes place via HPLC whereas the TVOC is calculated using the toluene equivalent determined via Tenax acc. to DIN EN 16516:2018- 01. Cologne, 23.12.2019 Michael Stein, Dipl.-Chem. (Laboratory Manager) Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 14 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Appendix I Sampling sheet Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 15 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 II Definition of terms VOC All individual compounds with a concentration ≥ 1 µg/m³ in the retention (volatile organic compounds) range C6 (n-Hexane) to C16 (n-Hexadecane) TVOC Total volatile organic compounds TVOC according to Sum of all VOC ≥ 5 µg/m3 in the retention range C6 to C16, DIN EN 16516:2018-01 calculated as toluene equivalent TVOC according to AgBB/DIBt Sum of all identified and calibrated VOC ≥ 5 µg/m3, SVOC ≥ 5 µg/m3 with LCI and not calibrated VOC ≥ 5 µg/m3 calculated as toluene equivalent TVOC according to Sum of all identified and calibrated VOC ≥ 1 µg/m3, eco-INSTITUT-Label SVOC ≥ 5 µg/m3 with LCI and not calibrated VOC ≥ 1 µg/m3 calculated as toluene equivalent TVOC according to Total area of chromatogram in the retention range C6 to C16, ISO 16000-6:2012-11 calculated as toluene equivalent TVOC without LCI according to Sum of all VOC without NIK ≥ 5 µg/m3 in the retention range C6 to C16 AgBB/DIBt and Belgian regulation TVOC without LCI according to eco- Sum of all VOC without NIK ≥ 1 µg/m3 in the retention range C6 to C16 INSTITUT-Label CMR-VOC All individual substances with the following categories: (carcinogenic, mutagenic, Regulation (EC) No. 1272/2008: Category Car.1A and 1B, Muta. reproduction-toxic VOC, VVOC and 1A and 1B, Repr. 1A and 1B SVOC) TRGS 905: K1A, K1B, M1A, M1B, R1A, R1B IARC: Group 1 and 2A DFG (MAK lists): Category III1and III2 VVOC (very volatile organic com- All individual substances with a concentration ≥ 1 µg/m³ in the pounds) retention range < C6 TVVOC Total very volatile organic compounds TVVOC according to AgBB/DIBt and Sum of all identified and calibrated VVOC ≥ 5 µg/m3 with LCI Belgian regulation TVVOC according to Sum of all identified and calibrated VVOC ≥ 1 µg/m3 with LCI eco-INSTITUT-Label SVOC (semi volatile organic com- All individual substances ≥ 1 µg/m³ in the retention range C16 to C22 pounds) TSVOC Total semi volatile organic compounds TSVOC according to Sum of all SVOC in the retention range C16 to C22, DIN EN 16516:2018-01 calculated as toluene equivalent TSVOC without LCI according to Sum of all SVOC ≥ 5 µg/m3 without LCI AgBB/DIBt TSVOC without LCI according to eco- Sum of all SVOC ≥ 1 µg/m3 without LCI INSTITUT-Label TSVOC with LCI according to Sum of all identified and calibrated SVOC ≥ 5 µg/m3 with LCI AgBB/DIBt SER Specific emission rate (see appendix IV) Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 16 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 17 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 LCI value Lowest Concentration of Interest; calculated value for the evaluation of VOC, established by the Committee for Health-related Evaluation of Building Products (Ausschuss zur gesundheitlichen Bewertung von Bauprodukten - AgBB) R value The quotient of the concentration and the LCI value is generated for every substance which is detected in the test chamber air. The sum of the calculated quotients results in the R value. R value according to R value for all identified and calibrated VOC ≥ 1 µg/m3 with LCI, established eco-INSTITUT-Label by the AgBB in 2018 R value according to AgBB 2018/DIBt R value for all identified and calibrated VOC ≥ 5 µg/m3 with LCI, established by the AgBB in 2018 R value according to R value for all identified and calibrated VOC ≥ 5 µg/m3 with LCI, established Belgian regulation by the Belgian regulation R value according to AFSSET R value for all identified and calibrated VOC ≥ 5 µg/m3 with LCI, established by ANSES (French National Agency on Food Safety, Environment, and Workplace Security) RT (retention time) Time for a particular analyte to pass through the system (from the column inlet to the detector) CAS No. International unique numerical identifier for a chemical (Chemical Abstracts Service) substance Toluene equivalent Concentration, calculated as toluene equivalent Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 18 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 III List of calibrated Volatile Organic Compounds (VOC) Aromatic hydrocarbons β-Caryophyllene Dipropylene glycol monomethylether Toluene α-Phellandrene acetate Ethylbenzene Myrcene Dipropylene glycol n- butylether p-Xylene Camphene Dipropylene glycol n-propyl ether m-Xylene α-Terpinene Di(propylene glycol) tert-butylether o-Xylene Longipinene 1,4-Butanediol Isopropylbenzene trans-β-Farnesene Tri(propylene glycol) methyl ether n-Propylbenzene cis-β-Farnesene Triethylene glycol dimethyl ether 1,3,5-Trimethylbenzene Isolongifolene Propylene glycol dimethyl ether 1,2,4-Trimethylbenzene TXIB (Texanol isobutyrate) 1,2,3-Trimethylbenzene Aliphatic alcohols and ether Ethyldiglycol 2-Ethyltoluene 1-Propanol1 Dipropylene glycol dimentylether 1-Isopropyl-2-methylbenzene 2-Propanol1 Propylene carbonate 1-Isopropyl-4-methylbenzene 1-Butanol Hexyleneglycol 1,2,4,5-Tetramethylbenzene 1-Pentanol 3-Methoxy-1-butanol n-Butylbenzene 1-Hexanol Propylene glycol n-propyl ether 1,3-Diisopropylbenzene tert-Butanol Propylene glycol n-butyl ether 1,4-Diisopropylbenzene Cyclohexanol Diethylene glycol phenyl ether Phenyloctane 2-Ethyl-1-hexanol Neopentyl glycol 1-Phenyldecane2 2-Methyl-1-propanol Diethylene glycol methyl ether 1-Phenylundecane2 1-Octanol 1-Ethoxy-2-propanol 4-Phenylcyclohexene 4-Hydroxy-4-methyl-2-pentanone tert-Butoxy-2-propanol Styrene 1-Heptanol 2-Butoxy ethyl acetate ß-Methylstyrene 1-Nonanol Phenylacetylene 1-Decanol Aldehydes 2-Phenylpropene 1,4-Cyclohexandimethanol Butanal1,3 Vinyltoluene 3-Methyl-1-butanal Naphthalene Aromatic alcohols (phenoles) Pentanal3 Indene Phenol Hexanal Benzene BHT (2,6-Di-tert-butyl-4-methylphenol) Heptanal 1-Methylnaphthalene Benzyl alcohol 2-Ethylhexanal 2-Methylnaphthalene Cresols Octanal 1,4-Dimethylnaphthalene Nonanal Glycols, Glycol ether, Glycol ester Decanal Saturated aliphatic Propylenglycol (1,2-Dihydroxypropane) 2-Butenal3 substances Ethyleneglycol (Ethandiol) 2-Pentenal3 2-Methylpentane1 Ethylene glycol monobutyl ether 2-Hexenal 3-Methylpentane1 Diethylene glycol 2-Heptenal n-Hexane Diethylene glycol-monobutyl ether 2-Octenal Cyclohexane 2-Phenoxyethanol 2-Nonenal Methylcyclohexane Ethylene carbonate 2-Decenal n-Heptane 1-Methoxy-2-propanol 2-Undecenal n-Octane 2-Methoxy-1-propanol Furfural n-Nonane 2-Methoxy-1-propyl acetate Ethanedial (Glyoxal)1,3 n-Decane Texanol Glutaraldehyde n-Undecane Glycolic acid butylester Benzaldehyde n-Dodecane Butyl diglycol acetate Acetaldehyde1,3 n-Tridecane Dipropylene glycol monomethyl ether Formaldehyde1,3 n-Tetradecane 2-Methoxyethanol Propanal1,3 n-Pentadecane 2-Ethoxyethanol Propenal1,3 n-Hexadecane 2-Propoxyethanol Isobutenal3 Methylcyclopentane 2-Methylethoxyethanol 1,4-Dimethylcyclohexane 2-Hexoxyethanol Ketones 2,2,4,6,6-Pentamethylheptane 1,2-Dimethoxyethane Ethylmethylketone3 1,2-Diethoxyethane 3-Methyl-2-butanone Terpenes 2-Methoxyethyl acetate Methylisobutylketone δ-3-Caren 2-Ethoxyethyl acetate Cyclopentanone α-Pinene 2-(2-Hexoxyethoxy)ethanol Cyclohexanone β-Pinene 1-Methoxy-2-(2-methoxy-ethoxy)ethane Acetone1,3 Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 19 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 Limonene Propylene glycol diacetate 2-Methylcyclopentanone Longifolene Dipropylene glycol 2-Methylcyclohexanone Acetophenone 1-Hydroxyacetone Glutaric acid dimethylester Decamethylcyclopentasiloxane 2-Heptanon Hexandioldiacrylate Dodecamethylcyclohexasiloxane Maleic acid dibutylester Tetrahydrofuran (THF) Acids Butyrolactone 1-Decene Acetic acid Glutaric acid diisobutylester Benzothiazole Propionic acid Succinic acid diisobutylester 1-Octene Isobutyric acid Dimethylphthalate 2-Pentylfurane Butyric acid Diethylphthalate² 2-Methylfurane Pivalic acid Dipropylphthalate² Isophorone Valeric acid Dibutylphthalate² Tetramethyl succinonitrile Caproic acid Diisobutylphthalate² Dimethylformamide (DMF) Heptanoic acid Dipropyleneglycoldiacrylate Tributyl phosphate Octanoic acid N-Ethyl-2-pyrrolidone 2-Ethylhexanoic acid Chlorinated hydrocarbons Aniline Tetrachlorethene 4-Vinylcyclohexene Esters and Lactones 1,1,1-Trichlorethane Dichlormethane Methylacetate1 Trichlorethene Carbon tetrachloride Ethyl acetate1 1,4-Dichlorbenzene Chloroform Vinyl acetate1 Chlorobenzene Chloroprene (monomer) Isopropyl acetate 2-chloro-propane Acetamide Propyl acetate Formamide 2-Methoxy-1-methylethyl acetate Others 1,3-Dichlor-2-propanol n-Butyl formate 1,4-Dioxane 2-n-Octyl-4-isothiazolin-3-one (OIT) Methylmethacrylate Caprolactam Cyclohexylisocyanate Isobutylacetate N-Methyl-2-pyrrolidone Butyl methacrylate 1-Butyl acetate Octamethylcyclotetrasiloxane 2-Hexanone 2-Ethylhexyl acetate Hexamethylcyclotrisiloxane Azobis[isobutyronitrile] Methyl acrylate Methenamine Ethyl acrylate 2-Butanonoxime n-Butyl acrylate Triethyl phosphate 2-Ethylhexyl acrylate Tributyl phosphate Adipic acid dimethylester 5-Chlor-2-methyl-4-isothiazolin-3-one (CIT) Fumaric acid dibutylester 2-Methyl-4-isothiazolin-3-one (MIT) Succinic acid dimethylester Triethylamine 1 VVOC 2 SVOC 3 Analysis according to DIN ISO 16000-3:2013-01 Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 20 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 IV Commentary on emission analysis Test method Measurement of the volatile organic compounds takes place in the test chamber in conditions similar to those applying in practice. Standardized test conditions are defined for the test chamber regarding loading, air exchange, relative humidity, temperature and incoming air, based on the type of test specimen and the required guideline. These conditions and the underlying standards are to be found in the section on test methods in the laboratory report. Air samples are taken from the test chamber at defined points in time during the continuously running test. To this end, approximately 5 L of air are collected from the test chamber with an air flow rate of 100 mL/min for Tenax and approx. 100 L with an air flow rate of 0.8 L/min for DNPH (dinitrophenylhydrazine). After thermal desorption, the substances adsorbed on Tenax are analysed using gas chromatographic separation and mass spectrometric determination. The gas chromatographic separation is performed with a slightly polar capillary column of 60 m in length. The substances derivatized with DNPH for the determination of formaldehyde and other short-chain carbonyl compounds (C1 - C6) are analysed using high-performance liquid chromatography. Over 200 compounds, including volatile organic compounds (C6 - C16), semi-volatile organic compounds (C16 - C22) and – insofar as possible with this method – also very volatile organic compounds (less than C6) are determined and quantified individually. All other substances – insofar as is possible – are identified through comparison with a library of spectra. The quantification of these substances and non-identified substances is performed through a comparison of their signal area with the signal of the internal standard d8 toluene. As far as possible, identification and quantification limit of any substance shall be 1 µg per m3 for substances adsorbed on Tenax and 2 µg/m3 for DNPH-derivatized substances (limit of quantification). Quality assurance The eco-INSTITUT Germany GmbH is granted flexible scope of accreditation pursuant to DIN EN ISO/IEC 17025:2018-03. The accreditation covers the analytical determination of all volatile organic compounds, including the test chamber method. In each analysis the analytical system is checked using an external standard based on the specifications in standard DIN EN 16516:2018-01. The stability of the analytical systems is documented based on the test standard using control charts. Laboratory performance is assessed at least once a year in inter-laboratory comparisons by comparing the results with those obtained by other laboratories for identical samples. A blank is run prior to introducing the test specimen into the test chamber to check for the possible presence of volatile organic compounds. The expanded measurement uncertainty U for the analytical determination of all volatile organic compounds, including the test chamber method is estimated to 37 %. The calculation is based on DIN ISO 11352:2013-03 (Nordtest). Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung Page 21 of 21 Test Report-N° B54720-001-002 dated 23.12.2019 V Explanation of Specific Emission Rate SER Emission measurements are accomplished in test chambers under defined physical conditions (temperature, relative humidity, room loading, air change rate etc.). Test chamber measurement results are directly comparable only if the investigations were accomplished under the same basic conditions. If the differences of the physical conditions refer only to the change of air rate and/or the loading, the "SER" or "specific emission rate" can be used for comparability of the measurement results. The SER indicates how many volatile organic compounds (VOC) are released by the sample for each material unit and hour (h). The SER can be calculated using the formula below for each proven individual component of the VOC from the data in the test report. As material units the following are applicable: l = unit of length (m) relation between emission and length a = unit area (m²) relation between emission and surface v = unit volume (m³) relation between emission and volume u = piece unit (unit = piece) relation between emission and complete unit From this the different dimensions for SER result: length-specific SERl in µg/(m·h) surface-specific SERa in µg/(m²·h) volume-specific SERv in µg/(m³·h) unit specific SERu in µg/(u·h) SER thus represents a product specific rate, which describes the mass of the volatile organic compound, which is emitted by the product per time unit at a certain time after beginning of the examination. SER = q·c q specific air flow rate (quotient from change of air rate and loading) c concentration of the measured substance(s) The result can be indicated in milligrams (mg) in place of micro grams (µg), whereby 1 mg = 1000 µg. Remark: The test results in the test report refer exclusively to the test piece presented by the manufacturer. The report may not be used in product and corporate advertising. Further information at www.eco-institut.de/werbung