ROMA USA LLC 554-B North Ave. NW Atlanta, GA 30318 Eurofins Product Testing NA 180 Blue Ravine Road, Suite B Folsom, CA 95630 voc@eurofinsus.com www.eurofinsuspt.com ASTM D5116 Emissions Test Report with CDPH SM V1.1-2010 Loading Scenarios per Cradle to Cradle Standard v3.0 Sect. 5.8 1 Sample Information Manufacturer Sample name Manufacturer ID no. Product type Production date Collection date ZetaColor EcoDomus Satin (Ready To Use) Batch No. n.240/114a Paint, water based 04/23/2014 1:17 PM 05/27/2014 2:27 PM Ship date 06/10/2014 Date sample received 06/11/2014 Test period (start - end) 06/16/2014-06/23/2014 2 Evaluation of the Results The tested product complies with the requirements of Section 5.8 Volatile Organic Compounds (VOC) Emission Testing of the Material Health Assessment Methodology of the Cradle to Cradle Certified CM Product Standard Version 3.0. Compound Parameter CAS No. Single compounds Test results after 7 days Classroom Concentration (µg/m 3 ) Office Concentration (µg/m 3 ) Limit value (µg/m 3 ) TVOC (C 6 -C 16 ) - < 11 < 36 500 Single VOC components (CMR or with TLV or MAK) None - - - - Formaldehyde 50-00-0 2.3 7.5 9 For details on the calculation of the classroom and office concentrations, see page 7: 5.3 Description of the applied test method. F2.14 Page 1 of 7
Table of contents 1 Sample Information 1 2 Evaluation of the Results 1 3 Test Method 2 4 Results - Measured Emissions after 7 Days TVOC, Formaldehyde, and Identified VOCs 3 5 Appendices 4 5.1 Image of the sample 4 5.2 Chain of Custody 5 5.3 Description of the applied test method 7 3 Test Method Environmental chamber operation and sampling at day 7 followed ASTM D5116. Sample preparation, sample analyses and calculation of predicted room concentrations followed the California Department of Public Health Standard Method for the Testing and Evaluation of VOC Emissions from Indoor Sources using Environmental Chambers, Version 1.1, February 2010. Test chamber parameters Chamber volume, m 3 0.119 Temperature, C 23±1 Relative humidity, % 50±5 Air exchange rate, 1/h 1.0±0.05 Loading ratio, m²/m³ 0.92 Sample preparation* The paint was homogenized and then 7.13 g were applied to conditioned drywall with a paintbrush. The target application rate was 650 ft 2 /gal. The edges and back of the board were covered with aluminium foil and low emitting foil tape to expose the painted surface only. Analytical method Instrumentation Parameter Reporting limit Modified EPA TO-17 GC/MS Individual VOCs 2 µg/m³ ISO 16000-6 GC/MS TVOC 20 µg/m³ ASTM D5197/EPA TO-11 Deviations from the test method: None HPLC/UV Low Molecular Weight Aldehydes 2 µg/m³ *Sample preparation following CDPH/EHLB SM V1.1 where available and ISO 16000-11 where not. For detailed method description, see page 7: 5.3 Description of the applied test method. F2.14 Page 2 of 7
4 Results - Measured Emissions after 7 Days TVOC, Formaldehyde, and Identified VOCs Compound CAS No. ID Category Chamber Concentration µg/m 3 Emission rate µg/(m 2 *h) TLV MAK CMR TVOC (C 6 -C 16 ) - - < 20 < 22 Formaldehyde 50-00-0 1a 4.3 4.7 Butyl acrylate* 141-32-2 1b < 2 < 2.2 Methyl methacrylate* 80-62-6 1b < 2 < 2.2 Styrene* 100-42-5 1b < 2 < 2.2 Acetic acid* 64-19-7 2 < 2 < 2.2 Benzoic acid 65-85-0 2 2.1 2.3 2-Ethylhexyl acrylate 103-11-7 3 5.6 6.1 n-decanoic acid 334-48-5 2 2.9 3.2 *Asthmagen Categories of Identity: 1a: Identified and quantified with authentic standard via HPLC/UV analysis. 1b: Identified and quantified with authentic standard via GC/MS analysis. 2: 3: 4: Identified by comparison with a mass spectrum obtained from library, match quality 90%. Quantified using toluene as a surrogate compound. Tentatively identified by comparison with a mass spectrum obtained from a library, match quality 75% and <90%. Quantified using toluene as a surrogate compound. Potential identification by comparison with a mass spectrum obtained from a library, match quality <75%. Quantified using toluene as a surrogate compound. Stephany I. Mason, PhD Head of product emission test center F2.14 Page 3 of 7
5 Appendices 5.1 Image of the sample F2.14 Page 4 of 7
5.2 Chain of Custody F2.14 Page 5 of 7
F2.14 Page 6 of 7
5.3 Description of the applied test method 5.3.1 Test Chamber The test chamber is made of stainless steel. A multi-step air clean-up is performed before loading the chamber, and a blank check of the empty chamber is performed. The operating parameters are 23 C, 50% relative air humidity in the supply air. Chamber operations followed ISO 16000-9 and ASTM D5116 and D6670 (internal method nos. 124 and 125). 5.3.2 VOC Emissions Testing - Sampling, Desorption, Analysis The emissions of organic compounds, except low molecular weight aldehydes were tested by drawing air samples from the chamber outlet through Tenax TA tubes. Analyses were done by thermal desorption and gas chromatography / mass spectroscopy (TO-17/ISO 16000-6, internal method no.: 122). All single substances were identified if the concentration exceeded 2 µg/m³. Quantification was done with the respective response factor and characteristic mass ion fragment. All non-identified substances were quantified as toluene equivalent if greater than 2 µg/m³. 5.3.3 Testing of Aldehydes The presence of aldehydes was tested by drawing air samples from the chamber outlet through DNPHcoated silica-gel tubes. Analysis was done by solvent desorption, HPLC and UV-/diode array detection (TO-11A/ASTM D5197/ISO 16000-3, internal method no.: 11). The absence of formaldehyde and/or acetaldehyde was stated if the specific wavelength UV detector response was lacking at the specific retention time in the chromatogram. Concentrations above the reporting limit of 2 µg/m³ were reported as positive detections. 5.3.4 Calculation of the Results In order to calculate the concentrations in an office building or a classroom, the loading parameters in CDPH SMv1.1Tables 4.2 4.5 were used in the following formula: C Calculated SER n A V A Unit representation Classroom Office parameters parameters SER A Area specific emission rate, µg/(m 2 h) As tested As tested A Wall area, m 2 94.6 33.4 n air exchange, h -1 0.82 0.68 V Volume of room, m 3 231 30.6 5.3.5 Quality assurance Before loading the chamber, a blank check of the empty chamber was performed and compliance with background concentrations in accordance with ISO 16000-9 was determined. Sampling at the chamber outlet and subsequent analysis was performed in duplicate. Sampling for aldehydes was also conducted using a DNPH-coated silica gel tube. In each sequence, stability of analytical systems was monitored and verified using NIST traceable calibration standards. 5.3.6 Accreditation The testing methods described above are accredited to ISO/IEC 17025:2005 by AClass (no. ADE- 1451). Eurofins Air Toxics certifies that the test results contained in this report meet all requirements of the ISO 17025 Standard F2.14 Page 7 of 7