1 ENVIRONMENTAL PRODUCT DECLARATION DEXCELL® GLASS MAT ROOF BOARD (1/4”, 1/2”, 5/8”) ACCORDING TO ISO 14025 AND ISO 21930 Type III environmental product declaration (EPD) developed according to ISO 14025 and 21930 for DEXcell® Glass Mat Roof Board (1/4”, 1/2”, 5/8”) DEXcell® Glass Mat Roof Board is manufactured by Gold Bond Building Products, LLC. National Gypsum Company is the exclusive service provider for products manufactured by Gold Bond Building Products.
2 Program Operator NSF Certification LLC 789 N. Dixboro, Ann Arbor, MI 48105 www.nsf.org Manufacturer Name and Address Gold Bond Building Products, LLC 2001 Rexford Road Charlotte, NC 28211 Declaration Number EPD11041 Declared Product and Declared Unit 92.9 m2 (1,000 square feet) of DEXcell® Glass Mat Roof Board (1/4”, 1/2", 5/8”) Reference PCR and Version Number NSF PCR for Gypsum Panel Products (Version 1.1, 2020). This type III EPD is developed according to ISO 14025:2006 and iSO 21930:2017. Product’s Intended Application and Use Products are moisture- and mold-resistant gypsum panels used as substrate boards, thermal barriers, and/or coverboards for commercial roofing applications. Markets of Applicability North America Date of Issue 05/23/2025 Period of Validity 5 years from date of issue EPD Type Product Specific Range of Dataset Variability N/A EPD Scope Cradle-to-Gate Year of reported manufacturer primary data 2022 LCA Software and Version Number GaBi 10.0.0.71 LCI Database and Version Number GaBi Database 2023.2 LCIA Methodology and Version Number TRACI 2.1 The sub-category PCR review was conducted by: • Thomas P. Gloria, Industrial Ecology Consultants • Bill Stough, Sustainable Research Group • Jack Geibig, EcoForm This declaration was independently verified in accordance with ISO 14025: 2006. The NSF PCR for Gypsum Panel Products (Version 1.1) serves as the core PCR. Internal External Jack Geibig - EcoForm jgeibig@ecoform.com This life cycle assessment was conducted in accordance with ISO 14044 and the reference PCR by: Maggie Wildnauer, WAP Sustainability Consulting, LLC This life cycle assessment was independently verified in accordance with ISO 14044 and the reference PCR by: Jack Geibig - EcoForm jgeibig@ecoform.com Limitations: Environmental declarations from different programs (ISO 14025) may not be comparable. Only EPDs prepared from cradle-to-grave life-cycle results and based on the same function, reference service life, and quantified by the same functional unit, and meeting all the conditions in ISO 14025, Section 6.7.2, can be used to assist purchasers and users in making informed comparisons between products. Full conformance with the PCR for Products allows EPD comparability only when all stages of a life cycle have been considered. However, variations and deviations are possible. Example of variations: Different LCA software and background LCI datasets may lead to differences results for upstream or downstream of the life cycle stages declared. Additional information on the life cycle assessment can be found by contacting National Gypsum directly.
3 DESCRIPTION OF COMPANY National Gypsum Company is the exclusive service provider of reliable, high-performance building products manufactured by its affiliate companies and marketed under the Gold Bond®, ProForm®, and PermaBASE® brands. The National Gypsum name has been synonymous with high-quality, innovative products and exceptional customer service since 1925. PRODUCT DESCRIPTION DEXcell® Glass Mat Roof Board is a moisture- and mold-resistant gypsum panel used as a substrate board, thermal barrier, and/or coverboard for commercial roofing applications. It has coated fiberglass facers and an enhanced mold-resistant gypsum core. It is available in 1/4", 1/2" and 5/8" thicknesses. It scores and cuts easily, and is specially coated on the front, back, and sides for easy handling. Use it for a wide variety of roofing systems, including mechanically attached and ballasted single-ply membranes, thermal barriers, and metal roofing. Use DEXcell® Glass Mat Roof Board as a substrate board and for thermal protection in roofing assemblies. It provides increased fire safety and acoustical enhancement. It also serves as a substrate for a vapor retarder and/or continuous substrate for the application of roofing membranes. This board provides increased moisture, mold, and impact resistance. Used as a coverboard in roofing assemblies, DEXcell® Glass Mat Roof Board protects and supports the roof membrane; provides increased fire, moisture and mold resistance; and reduces the potential for penetration damage to the membrane. Product Features: • Scores and snaps easily. • Fiberglass mat on face and back has a special coating for easy handling. • Meets ASTM C1177. • Meets FM Class 1 and UL Class A fire ratings for roofing systems up to unlimited slope per UL 790/ULC S107. • Approved component in specific UL fire-rated designs. • Use it as part of a class A, B or C roof covering that has been tested in accordance UL 1256, ULC CAN-S126, or FM 4450. No additional thermal barrier is required as per IBC 2603.4.1.5. • Resists the growth of mold per ASTM D3273 with a score of 10, the best possible score. • High-density coverboard/thermal barrier. • 5/8" DEXcell Glass Mat Roof Board is UL Classified for use in numerous hourly rated UL assemblies, including UL "P" roof assemblies; refer to UL Certifications Directory. Meets Type X per ASTM C1177. This EPD includes representative products manufactured by National Gypsum’s affiliate, Gold Bond® Building Products, produced at the facilities shown in the table below. The facilities shown below produce DEXcell Glass Mat Roof Boards in all thicknesses covered under this study: 1/4", 1/2”, and 5/8”. A weighted average of each manufacturing input (energy, water, waste, etc.) was utilized based on 2022 production as products are made at multiple facilities. Therefore, data from any given manufacturing site might be meaningfully different than the values reported in this EPD.
4 Table 1: Manufacturing Facilities Manufacturing Plants Production Share [%] Baltimore, MD 33% Medicine Lodge, KS 18% Phoenix, AZ 7% Richmond, CA 10% Savannah, GA 8% Waukegan, IL 9% Wilmington, NC 13% Gypsum used in the products is sourced from the plants below. This material tends to be sourced from the quarry nearest to the gypsum board manufacturing plant but that is not always the case. Table 2: Quarries Quarries Halifax, Nova Scotia Santa Rosalia, MX Sun City, KS Tawas, MI Winkelman, AZ All products in this review are considered gypsum board products. The CSI code for these products is 07 50 00. The products included in this study fall under the following sub-category as defined by the PCR: gypsum panel products. APPLICABLE PRODUCT STANDARDS Applicable product standards for gypsum boards include: • ASTM C473 Standard Test Methods for Physical Testing of Gypsum Panel Products • ASTM C518 Standard Test Method for Steady-State Thermal Transmission Properties by Means of the Heat Flow Meter Apparatus • ASTM C1177 Standard Test Method for Glass Mat Gypsum Substrate for Use as Sheathing • ASTM D3273 Standard Test Method for Resistance to Growth of Mold on the Surface of Interior Coatings in an Environmental Chamber • ASTM E84 Standard Test Method for Surface Burning Characteristics of Building Materials • ASTM E96 Standard Test Methods for Water Vapor Transmission of Materials • ASTM E119 Standard Test Methods for Fire Tests of Building Construction and Materials. • ASTM E136 Standard Test Method for Behavior of Materials in a Vertical Tube Furnace at 750 ̊C • ASTM E661 Standard Test Method for Performance of Wood and Wood-Based Floor and Roof Sheathing Under Concentrated Static and Impact Loads • Gypsum Association, GA-238, Guidelines for Prevention of Mold Growth on Gypsum Board
5 TECHNICAL DATA Table 3 shows the technical specifications of the products, including any testing data as appropriate. Table 3: Technical Details Parameter Description Performance Roof board, mold- and moisture-resistant, coated fiberglass facers Mold and Mildew Resistance The product scored a 10 when tested in accordance with ASTM D3273 Standard Test Method for Resistance to Growth of Mold on the Surface of Interior Coatings in an Environmental Chamber Edge(s) Square Thicknesses 1/4”, 1/2”, 5/8” Widths 48” Color Gray Core Regular gypsum core (1/4” and 1/2" DEXcell Glass Mat Roof Board), Type X gypsum core (5/8” DEXcell Glass Mat Roof Board) ASTM Standard ASTM C1177 MANUFACTURING Gypsum arrives at the manufacturing plant and is ground and heated to remove chemically bound water, forming stucco. The stucco is then mixed with water and other materials to make the core. The core is encased in fiberglass facers. The board is then left to harden, maintaining 20-30% moisture, before being cut and put through a drying process. The edges are then trimmed, and panels are stacked on risers before the products are distributed. MATERIAL COMPOSITION Unique product compositions were provided for each product and manufacturing site. The average compositions across all manufacturing sites were utilized in the study and are shown in Table 4 below. The raw materials for the product were obtained from various suppliers across North America, in addition to the quarries owned by affiliates of National Gypsum Company. The products under review are packaged with end tape and tear tape before distribution.
6 Table 4: Material Composition Material DEXcell Glass Mat Roof Board 1/4” DEXcell Glass Mat Roof Board 1/2” DEXcell Glass Mat Roof Board 5/8” Gypsum, including internally processed reclaim gypsum 90 - 100% 90 - 100% 90 - 100% Fiberglass Mat 0 - 10% 0 - 10% 0 - 10% Other Materials 0 - 10% 0 - 10% 0 - 10% This study does not include the impacts associated with installation, use, maintenance, repair, operational energy and water use, replacement, refurbishment, and disposal. This product does not contain substances on the candidate list of SVHC for Authorisation at a percentage higher than 0.1% by mass.
7 DECLARED UNIT The declared unit is 92.9 m2 (1,000 square feet) of gypsum board. DEXcelll® Glass Mat Roof Board is a moisture- and mold-resistant gypsum panel used as a substrate board, thermal barrier, and/or coverboard for commercial roofing applications. Table 5: Declared Unit DEXcell Glass Mat Roof Board 1/4” DEXcell Glass Mat Roof Board 1/2” DEXcell Glass Mat Roof Board 5/8” Mass per declared unit [kg] 682.57 1122.23 1400 SYSTEM BOUNDARY This LCA is a Cradle-to-Gate study. An overview of the system boundary is shown in Figure 1 and a summary of the life cycle stages included in this LCA is presented in Table 6. Figure 1: System Boundary A summary of the life cycle modules included in this EPD is presented in Table 6. Infrastructure flows have been excluded. Raw Material Extraction, Processing and Transport to Plant (A1-A2)Manufacturing (A3)SYSTEM BOUNDARYNatural and/or Synthetic GypsumElectricityNatural GasWaterPackagingManufacturing WasteWaterManufacturing at QuarryTransportPropaneVOC EmissionsFiberglass MatLIFE CYCLE ASSESSMENT BACKGROUND INFORMATION
8 Table 6: Life Cycle Stages Included in the Study Production Construction Use End of Life Benefits & Loads Beyond System Boundary A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 B6 B7 C1 C2 C3 C4 D Raw Material Supply Transport Manufacturing Transport to Site Assembly/Install Use Maintenance Repair Replacement Refurbishment Operational Energy Use Operational Water Use Deconstruction Transport Waste Processing Disposal Reuse, Recovery, Recycling Potential X X X MND MND MND MND MND MND MND MND MND MND MND MND MND MND CUT-OFF CRITERIA Material or energy inputs greater than 1% (based on total mass of the final product) were included within the scope of the analysis. Material and energy inputs less than 1% were included if sufficient data were available to warrant inclusion and/or the material input was thought to have significant environmental impact. Cumulative excluded material and energy inputs and environmental impacts are less than 5% based on total weight of the declared unit. No known flows were deliberately excluded from this EPD. ALLOCATION General principles of allocation were based on ISO 14040/44. To derive a per-unit value for the manufacturing inputs/outputs, mass allocation based on total production at each manufacturing facility was adopted. For all plants that make the reviewed products, the total consumption during 2022 was divided by the total production mass during 2022 to derive a weighted-average use-per-production unit value. Gold Bond Building Products’ associates determined the best way to allocate inputs. This allocation methodology was used for the following inputs: • Electricity • Diesel • Gasoline • Thermal Energy from Natural Gas • Propane • Water • Waste Discussions with Gold Bond Building Products’ staff revealed this was a representative way to allocate the manufacturing inputs/outputs due to the fact that all products created at the facilities are similar in nature. As a default, secondary GaBi datasets use a physical mass basis for allocation.
9 All results are given per declared unit, which is 92.9 m2 (1,000 square feet) of gypsum board. Environmental impacts were calculated using the GaBi software platform. Impact results have been calculated using the TRACI 2.1 impact assessment methodology. Results presented in this report are relative expressions and do not predict impacts on category endpoints, the exceeding of thresholds, safety margins, or risks. Table 7: LCIA Indicators Abbreviation Parameter Unit TRACI 2.1 AP Acidification potential of soil and water kg SO2 eq EP Eutrophication potential kg N eq GWP, incl biogenic carbon Global warming potential (100 years, includes biogenic CO2) kg CO2 eq GWP, excl biogenic carbon Global warming potential (100 years, includes biogenic CO2) kg CO2 eq ODP Depletion of stratospheric ozone layer kg CFC 11 eq ADPfossil Depletion of non-renewable fossil fuels MJ, surplus energy SFP Smog formation potential kg O3 eq Table 8: Biogenic Carbon Indicators Abbreviation Parameter Unit BCRP Biogenic Carbon Removal from Product [kg CO2] BCEP Biogenic Carbon Emission from Product [kg CO2] BCRK Biogenic Carbon Removal from Packaging [kg CO2] BCEK Biogenic Carbon Emission from Packaging [kg CO2] BCEW Biogenic Carbon Emission from Combustion of Waste from Renewable Sources Used in Production Processes [kg CO2] CCE Calcination Carbon Emissions [kg CO2] CCR Carbonation Carbon Removals [kg CO2] CWNR Carbon Emissions from Combustion of Waste from Non- Renewable Sources used in Production Processes [kg CO2] Table 9: Resource Use, Waste, and Output Flow Indicators Abbreviation Parameter Unit Resource Use Parameters RPRE Use of renewable primary energy excluding renewable primary energy resources used as raw materials MJ, net calorific value (LHV) RPRM Use of renewable primary energy resources used as raw materials MJ, net calorific value RPRT Total use of renewable primary energy resources MJ, net calorific value NRPRE Use of non-renewable primary energy excluding non-renewable primary energy resources used as raw materials MJ, net calorific value NRPRM Use of non-renewable primary energy resources used as raw materials MJ, net calorific value NRPRT Total use of non-renewable primary energy resources MJ, net calorific value LIFE CYCLE ASSESSMENT RESULTS
10 Abbreviation Parameter Unit SM Use of secondary materials kg RSF Use of renewable secondary fuels MJ, net calorific value NRSF Use of non-renewable secondary fuels MJ, net calorific value RE Recovered energy MJ, net calorific value FW Net use of fresh water m3 Waste Parameters and Output Flows HWD Disposed-of-hazardous waste kg NHWD Disposed-of non-hazardous waste kg HLRW High-level radioactive waste, conditioned, to final repository kg ILLRW Intermediate- and low-level radioactive waste, conditioned, to final repository kg CRU Components for reuse kg MR Materials for recycling kg MER Materials for energy recovery kg EEE Exported electrical energy MJ EET Exported thermal energy MJ The user of the EPD should take care when comparing EPDs from different companies. Assumptions, data sources, and assessment tools may all impact the variability of the final results and make comparisons misleading. Without understanding the specific variability, the user is therefore, not encouraged to compare EPDs.
11 DEXCELL® GLASS MAT ROOF BOARD (1/4”) The LCIA results presented below are for 92.9 m2 (1,000 square feet) of gypsum board. Impact Category Total A1-A3 A1 A2 A3 TRACI LCIA Impacts (North America) AP [kg SO2 eq] 0.385 0.150 0.117 0.118 EP [kg N eq] 0.0474 0.0120 0.0057 0.0296 GWP, incl biogenic carbon [kg CO2 eq] 216 52.2 10.6 154 GWP, excl biogenic carbon [kg CO2 eq] 214 52.1 10.6 151 ODP [kg CFC 11 eq] 7.14x10-7 7.14x10-7 2.99x10-14 2.36x10-12 ADP-fossil fuel [MJ] 3040 872 136 2040 SFP [kg O3 eq] 6.96 2.88 2.31 1.77 Carbon Emissions and Uptake BCRP [kg CO2] - - - - BCEP [kg CO2] - - - - BCRK [kg CO2] - - - - BCEK [kg CO2] - - - - BCEW [kg CO2] - - - - CCE [kg CO2] - - - - CCR [kg CO2] - - - - CWNR [kg CO2] - - - - Impact Category Total A1-A3 A1 A2 A3 Resource Use Indicators RPRE [MJ] 305 217 5 84 RPRM [MJ] - - - - RPRT [MJ] 305 217 5 84 NRPRE [MJ] 3210 922 138 2150 NRPRM [MJ] - - - - NRPRT [MJ] 3210 922 138 2150 SM [kg] - - - - RSF [MJ] - - - - NRSF [MJ] - - - - RE [MJ] - - - - FW [m3] 0.515 0.392 0.015 0.108 Output Flows and Waste Categories HWD [kg] 1.03x10-5 9.86x10-6 1.86x10-8 3.85x10-7 NHWD [kg] 28.8 4.89 0.0121 23.9 HLRW [kg] 7.00x10-5 2.11x10-5 4.83x10-7 4.84x10-5 ILLRW [kg] 0.0588 0.0179 0.000406 0.0405 CRU [kg] - - - - MR [kg] 27.6 - - 27.6 MER [kg] - - - -
12 Impact Category Total A1-A3 A1 A2 A3 EEE [MJ] 3.18 - - 3.18 EET [MJ] 1.50 - - 1.50 DEXCELL® GLASS MAT ROOF BOARD (1/2”) The LCIA results presented below are for 92.9 m2 (1,000 square feet) of gypsum board. Impact Category Total A1-A3 A1 A2 A3 TRACI LCIA Impacts (North America) AP [kg SO2 eq] 0.551 0.172 0.187 0.192 EP [kg N eq] 0.0721 0.0150 0.0088 0.0483 GWP, incl biogenic carbon [kg CO2 eq] 320 54.3 15.8 250 GWP, excl biogenic carbon [kg CO2 eq] 316 54.7 15.8 246 ODP [kg CFC 11 eq] 5.44x10-7 5.44x10-7 4.41x10-14 3.90x10-12 ADP-fossil fuel [MJ] 4420 908 202 3310 SFP [kg O3 eq] 10.20 3.66 3.65 2.88 Carbon Emissions and Uptake BCRP [kg CO2] - - - - BCEP [kg CO2] - - - - BCRK [kg CO2] - - - - BCEK [kg CO2] - - - - BCEW [kg CO2] - - - - CCE [kg CO2] - - - - CCR [kg CO2] - - - - CWNR [kg CO2] - - - - Impact Category Total A1-A3 A1 A2 A3 Resource Use Indicators RPRE [MJ] 372 230 7 134 RPRM [MJ] - - - - RPRT [MJ] 372 230 7 134 NRPRE [MJ] 4660 961 204 3500 NRPRM [MJ] - - - - NRPRT [MJ] 4660 961 204 3500 SM [kg] - - - - RSF [MJ] - - - - NRSF [MJ] - - - - RE [MJ] - - - - FW [m3] 0.609 0.411 0.022 0.176 Output Flows and Waste Categories HWD [kg] 6.64x10-6 5.99x10-6 2.76x10-8 6.16x10-7 NHWD [kg] 44.2 5.14 0.0176 39.0
13 Impact Category Total A1-A3 A1 A2 A3 HLRW [kg] 1.01x10-4 2.13x10-5 7.13x10-7 7.94x10-5 ILLRW [kg] 0.0858 0.0188 0.000599 0.0664 CRU [kg] - - - - MR [kg] 43.0 - - 43.0 MER [kg] - - - - EEE [MJ] 5.19 - - 5.19 EET [MJ] 2.44 - - 2.44 DEXCELL® GLASS MAT ROOF BOARD (5/8”) The LCIA results presented below are for 92.9 m2 (1,000 square feet) of gypsum board. Impact Category Total A1-A3 A1 A2 A3 TRACI LCIA Impacts (North America) AP [kg SO2 eq] 0.668 0.206 0.228 0.234 EP [kg N eq] 0.0870 0.0178 0.0104 0.0588 GWP, incl biogenic carbon [kg CO2 eq] 387 62.6 18.1 307 GWP, excl biogenic carbon [kg CO2 eq] 382 63.0 18.1 301 ODP [kg CFC 11 eq] 9.93x10-7 9.93x10-7 5.02x10-14 4.81x10-12 ADP-fossil fuel [MJ] 5320 1020 231 4060 SFP [kg O3 eq] 12.40 4.39 4.43 3.53 Carbon Emissions and Uptake BCRP [kg CO2] - - - - BCEP [kg CO2] - - - - BCRK [kg CO2] - - - - BCEK [kg CO2] - - - - BCEW [kg CO2] - - - - CCE [kg CO2] - - - - CCR [kg CO2] - - - - CWNR [kg CO2] - - - - Impact Category Total A1-A3 A1 A2 A3 Resource Use Indicators RPRE [MJ] 427 253 7 167 RPRM [MJ] - - - - RPRT [MJ] 427 253 7 167 NRPRE [MJ] 5600 1080 233 4290 NRPRM [MJ] - - - - NRPRT [MJ] 5600 1080 233 4290 SM [kg] - - - - RSF [MJ] - - - - NRSF [MJ] - - - -
14 Impact Category Total A1-A3 A1 A2 A3 RE [MJ] - - - - FW [m3] 0.718 0.479 0.024 0.216 Output Flows and Waste Categories HWD [kg] 0.718 0.479 0.024 0.216 NHWD [kg] 1.05x10-5 9.66x10-6 3.15x10-8 7.62x10-7 HLRW [kg] 52.7 5.41 0.0198 47.3 ILLRW [kg] 1.22x10-4 2.48x10-5 8.14x10-7 9.69x10-5 CRU [kg] 0.1020 0.0202 0.000684 0.0810 MR [kg] - - - - MER [kg] 55.8 - - 55.8 EEE [MJ] - - - - EET [MJ] 6.29 - - 6.29
15 A dominance analysis was performed for all products in the LCA to show which of the life cycle modules contributes to the majority of the impacts. Due to the relevance of this impact category to the product type and the manufacturer’s interests, this dominance analysis is provided for TRACI 2.1 Global Warming Potential (GWP) 100, excluding biogenic carbon results. Global warming potential (GWP) is a measure of how much heat a greenhouse gas traps in the atmosphere up to a specified time horizon and measured relative to carbon dioxide. Figure 2: GWP dominance analysis for DEXcell® Glass Mat Roof Board (1/4”, 1/2" and 5/8” thick panels) The dominance analysis shows that the impacts from manufacturing (A3) represent the large majority of the GWP at 71% for 1/4”, 78% for 1/2” and 79% for 5/8”, thick boards. Raw material extraction (A1) is the next highest category showing 24% for 1/4”, 17% for 1/2”, and 16% for 5/8” thick boards. Transportation (A2) is much lower at 5% for 1/4”, 5% for 1/2”, and 5% for 5/8” thick boards. The emissions sources contributing the most within the manufacturing stage (A3) are natural gas and electricity usage. Some limitations to the study have been identified as follows: • Only facility-level data were provided for manufacturing processes. Sub-metering of specific product lines would allow for more accurate manufacturing impacts to be modeled. • Availability of geographically more accurate datasets would have improved the accuracy of the study. - 50 100 150 200 250 300 350 400DEXcell® Glass Mat Roof Board 1/4 inchDEXcell® Glass Mat Roof Board 1/2 inchDEXcell® Glass Mat Roof Board 5/8 inchDEXcell® Glass Mat Roof Board GWP (kg CO2e) impact per 1,000 sq ftA1A2A3LIFE CYCLE ASSESSMENT INTERPRETATION
16 • Since this LCA uses the cut-off approach to model recycled material in the product, no credit is given to the product system. Instead, the manufacturer realizes reduced environmental impacts through the absence of the burden of extracting virgin material. • Only known and quantifiable environmental impacts are considered. • Due to the assumptions and value choices listed above, these do not reflect real-life scenarios and hence they cannot assess actual and exact impacts, but only potential environmental impacts. ENVIRONMENTAL ACTIVITIES AND CERTIFICATIONS DEXcell® Glass Mat Roof Board is UL GREENGUARD Gold Certified and has a published Health Product Declaration. Gypsum boards, if installed and treated properly, will last the lifetime of the building. ADDITIONAL ENVIRONMENTAL INFORMATION
17 1. Life Cycle Assessment, LCA Report for National Gypsum – Gypsum Boards. WAP Sustainability Consulting. July 2024. 2. NSF Product Category Rule (PCR) for Gypsum Panel Products Version 1.1 (April 2020) 3. ISO 14044: 2006 Environmental Management – Life cycle assessment – Requirements and Guidelines. 4. ISO 14044: 2006/ Amd 1:2017 Environmental Management – Life cycle assessment – Requirements and Guidelines – Amendment 1. 5. ISO 14025:2006 Environmental labels and declarations – Type III environmental declarations – Principles and Procedures. 6. ISO 21930:2017 Sustainability in buildings and civil engineering works – Core rules for environmental product declarations of construction products and services. REFERENCES
