SP-2888 RG Brush

Environmental Impact

Product Details

Description

SP-2888 RG is a 100% solids, isocyanate-free epoxy/polyurethane hybrid coating for protection of steel and metal surfaces from severe corrosion and abrasion. This brush-grade formulation offers superior adhesion and corrosion resistance from co-polymerized epoxy and polyurethane chemistry.

Lifecycle Breakdown

Method: TRACI 2.1 · 6.670984456 kgCO₂e/kg

EPD PDF Document

ENVIRONMENTALPRODUCT DECLARATIONIN ACCORDANCE WITH ISO 14025 AND ISO 21930:2007SmartEPD-2024-040-0190-01SP-2888 RG BrushDate of Issue:Oct 16, 2024Expiration:Oct 16, 2029Last updated:Oct 16, 2024

SP-2888 RG BrushSpecialty Polymer CoatingsGeneral Information4Reference Standards4Verification Information5Limitations, Liability, and Ownership5Organization Information5Product Information5Plants6Product Specifications6Material Composition6Software and LCI Data Sources7EPD Data Specificity7Renewable Electricity8System Boundary8Product Flow Diagram9Life Cycle Module Descriptions9LCA Discussion9Results11Environmental Impact Assessment11Resource Use Indicators13Waste and output Flow Indicators14Carbon Emissions and Removals15Scenarios16Transport to the building/construction site (A4)16Installation in to the building/construction site (A5)16Reference Service Life (B1)17Replacement (B4)17Page 2 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsEnd of Life (C1 - C4)17Interpretation17Additional Environmental Information18References18Page 3 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsGeneral Information Specialty Polymer Coatings #14 – 1595 Cliveden Avenue, Delta, BC, Canada V3M 6M21.604.514.9711info@spc-net.comspc-net.comProduct Name:SP-2888 RG BrushFunctional Unit:1 m2 of covered and protected substrate for 60 years per coat, reference flow depends on service lifeDeclaration Number:SmartEPD-2024-040-0190-01Date of Issue:October 16, 2024Expiration:October 16, 2029Last updated:October 16, 2024EPD Scope:Cradle to graveA1 - A3, A4, A5, B1 - B7, C1 - C4 Market(s) of Applicability:North AmericaReference StandardsStandard(s):ISO 14025 and ISO 21930:2007Core PCR:NSF PCR for Architectural Coatings v.1Date of issue: June 18, 2015Valid until: June 30, 2024Sub-category PCR review panel:Contact Smart EPD for more information.General Program Instructions:Smart EPD General Program Instructions v.1.0, November 2022Page 4 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsVerification InformationLCA Author/Creator:Juan David Villegasjuan@parqhq.comEPD Program Operator:Smart EPDinfo@smartepd.comwww.smartepd.com585 Grove St., Ste. 145 PMB 966, Herndon, VA 20170, USAVerification: Independent critical review of the LCA and data, according to ISO 14044 and ISO 14071 : External Ranjani TheregowdaSmart EPD LLCranjani.theregowda@smartepd.com Independent external verification of EPD, according to ISO 14025 and reference PCR(s) : External Ranjani TheregowdaSmart EPD LLCranjani.theregowda@smartepd.comLimitations, Liability, and Ownership Environmental declarations from different programs (ISO 14025) may not be comparable. Comparison of the environmental performance of products using EPD information shall be based on the product’s use and impacts at the building level, and therefore EPDs may not be used for comparability purposes when not considering the whole building life cycle. EPD comparability is only possible 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. The EPD owner has sole ownership, liability, and responsibility for the EPD. Organization Information Specialty Polymer Coatings, a division of Carboline, is a leading formulator, manufacturer and supplier of state of the art, 100% solids, no VOCs, liquid epoxy and polyurethane coatings. Further information can be found at:www.carboline.comProduct Description SP-2888® RG is an epoxy/polyurethane Hybrid coating based on “State of the Art” epoxy/urethane chemistry. The synergistic effect of co-polymerizing epoxy and polyurethane produces a coating with the superior adhesion and corrosion resistance of an epoxy along with the added toughness of a polyurethane. This 100% solids, & isocyanate free, two component coating system is available in Brush Grade, Spray Grade, Repair Cartridges and Spray Cartridges. SP-2888® RG is the coating most preferred for protection of steel and other metal surfaces from severe corrosion and abrasion. Further information can be found at:https://www.carboline.com/products/product-details/SP-2888-RG-BrushProduct InformationFunctional Unit:1 m2 of covered and protected substrate for 60 years per coat, reference flow depends on service lifeMass:1.544 kgReference Service Life:60 YearsPage 5 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsProduct Specificity:Product AverageProduct SpecificPlantsCarboline - Dayton, NV95 E Airpark Vista Blvd, Dayton, NV 89403, USAProduct SpecificationsProduct SKU(s):R37101009JHDProduct Classification Codes:EC3 - Finishes -> PaintingAndCoating -> PaintByAreaArchitectural Coating Subcategory:Exterior Architectural CoatingQuality Designation:Low QualityDesign Life:5 yearsMarket-Based Lifetime:10 yearsAmount of Colorant Needed per Liter of Coating:0 mlMaterial CompositionMaterial/Component CategoryOrigin% MassPigmentsVarious30 - 50ResinVarious34 - 54AdditivesVarious< 10Packaging MaterialOriginkg Masssteel pailUSA0.106Page 6 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsHazardous Materials1,2-CYCLOHEXANEDIAMINE (694-83-7)1,3-BENZENEDIAMINEMETHANEAMINE (135470-04-1)2-PIPERAZIN-1-YLETHYLAMINE (140-31-8)4,4'-ISOPROPYLIDENEDIPHENOL (80-05-7)4-NONYL PHENOL, BRANCHED (84852-15-3)4-TERT-BUTYLPHENOL (98-54-4)BENZENE-1, 3-DIMETHANAMINE (1477-55-0)BENZYL ALCOHOL (100-51-6)BIS(GLYCIDYLOXYMETHYL)CYCLOHEXANE (14228-73-0)BISPHENOL A EPOXY RESIN (25068-38-6)DGEBA, Rx PRODUCTS WITH DETA (68411-71-2)DIETHYLENETRIAMINE (111-40-0)DIMETHYLAMINO(METHYL)PHENOL (25338-55-0)EPOXY DILUENT (37237-76-6)EPOXY PHENOL NOVOLAC RESIN (9003-36-5)MICA (12001-26-2)MICROCRYSTALLINE SILICA (14808-60-7)NEOPENTYL GLYCOL DIGLYCIDYL ETHER (17557-23-2)TITANIUM DIOXIDE (13463-67-7)EPD Data SpecificityPrimary Data Year:2022-2023Manufacturing Specificity:Industry AverageManufacturer AverageFacility SpecificAveraging: Averaging was not conducted for this EPD Software and LCI Data SourcesLCA Software:SimaPro v. 9.5Page 7 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsLCI Foreground Database(s):Ecoinvent v. 3.9.1LCI Background Database(s):Ecoinvent v. 3.9.1Renewable ElectricityRenewable electricity is used:NoSystem BoundaryProductionA1Raw material supplyA2TransportA3ManufacturingConstructionA4Transport to siteA5Assembly / InstallUseB1UseB2MaintenanceB3RepairB4ReplacementB5RefurbishmentB6Operational Energy UseB7Operational Water UseEnd of LifeC1DeconstructionC2TransportC3Waste ProcessingC4DisposalBenefits & Loads Beyond System BoundaryDRecycling, Reuse Recovery PotentialNDPage 8 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsProduct Flow DiagramLife Cycle Module Descriptions Primary data were collected for the 12 month period starting October 2022 and ending September 2023 to ensure technical, geographical and temporal the representativeness. The products in this study are manufactured at Carboline’s facilities in Green Bay (Wisconsin), Lake Charles (Louisiana), and Dayton (Nevada). The manufacturing process entails the addition of pre-weighted ingredients, followed by mixing in the correct sequence to create the desired products. Subsequently, Carboline packages and distributes the finished products to various distribution centers. The process involves the use of grid electricity, heat from natural gas combustion, an process water. Non hazardous waste consisting mainly of packaging material is sent to disposal or recycling. LCA Discussion Allocation Procedure Product packaging was allocated by mass. Allocation of co-products was avoided, to the extent it was possible, based on the guidance given in ISO 14044:2006, 4.3., in ISO 21930 and section 5 of NSF International PCR for Architectural Coatings v.1.  Volumetric allocation was applied to energy and water use at the facility level, as it represents the partition among selling units (in gallons). Carboline Global, Inc. provided total volume produced at each facility. Cut-off Procedure No cut-off criteria are defined for this study. The system boundary was defined based on relevance to the goal of the study. For the processes within the system boundary, all available energy and material flow data have been included in the model. In cases where no matching life cycle inventories are available to represent a flow, proxy data have been applied based on conservative assumptions regarding environmental impacts. Data Quality Discussion Page 9 / 19

SP-2888 RG BrushSpecialty Polymer Coatings The quality of inventory data is evaluated based on several criteria, including precision, completeness, consistency, and representativeness. Precision and Completeness • Precision: The inventory data used in this study were either directly measured, calculated, or estimated based on primary data sources, ensuring high precision. Background data from ecoinvent v3.9.1 database also has documented precision to the extent available. • Completeness: The product system's mass balance and inventory completeness were thoroughly checked. Some exclusions were made in line with the PCR requirements, such as personnel impacts, R&D activities, business travel, secondary packaging, point of sale infrastructure, and the coating applicator. However, no data was intentionally omitted.. Consistency and Reproducibility • Consistency: Primary data were collected with a similar level of detail, while background data came from the ecoinvent v3.9.1 database. The modeling approach and other methodological choices were applied consistently throughout the model. Default values from the PCR were considered where there was unavailability of primary data, For example, the default waste transport distance was used for product disposal assessment. • Reproducibility: This study ensures reproducibility by providing comprehensive disclosure of input-output data, dataset choices, and modeling approaches. A knowledgeable third party should be able to approximate the results using the same data and modeling methods. Representativeness • Temporal: Primary data were collected for the one-year period of October 2022 to September 2023 to ensure the representativeness of post-consumer content. Secondary data from the ecoinvent v3.9.1 database is typically representative of recent years. • Geographical: Primary data represent Carboline's production facilities in Green Bay (Wisconsin), Dayton (Nevada) and Lake Charles (Louisiana). Where applicable, differences in electric grid mix were considered using appropriate secondary data. The use of country-specific data ensures high geographical representativeness, and proxy data were only used when country-specific data were unavailable. • Technological: Both primary and secondary data were tailored to the specific technologies studied, ensuring high technological representativeness. Where no direct raw material information was available in the ecoinvent 3.9.1 database, proxies were identified and used. Page 10 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsResultsEnvironmental Impact Assessment ResultsTRACI 2.1per 1 m2 of covered and protected substrate for 60 years.LCIA results are relative expressions and do not predict impacts on category endpoints, the exceeding of thresholds, safety margins or risks.MarketImpact CategoryMethodUnitA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4GWP-totalTRACI 2.1kg CO2e10.30.814NDNDNDND55.5NDNDNDND0.06113.365.49ODPTRACI 2.1kg CFC11 eq0.0003151.34e-8NDNDNDND0.00157NDNDNDND1.01e-92.29e-83.65e-9APTRACI 2.1kg SO2 eq0.06810.00436NDNDNDND0.362NDNDNDND0.0003270.00220.00151EPTRACI 2.1kg N eq0.02090.000829NDNDNDND0.109NDNDNDND0.00006230.001420.0594POCPTRACI 2.1kg O3 eq1.170.122NDNDNDND6.46NDNDNDND0.009170.02890.0237Abbreviations:GWP = Global Warming Potential, 100 years (may also be denoted as GWP-total, GWP-fossil (fossil fuels), GWP-biogenic (biogenic sources), GWP-luluc (land use and land use change)), ODP = Ozone Depletion Potential, AP = Acidification Potential, EP = Eutrophication Potential, SFP = Smog Formation Potential, POCP = Photochemical oxidant creation potential, ADP-Fossil = Abiotic depletion potential for fossil resources, ADP-Minerals&Metals = Abiotic depletion potential for non-fossil resources, WDP = Water deprivation potential, PM = Particular Matter Emissions, IRP = Ionizing radiation, human health, ETP-fw = Eco-toxicity (freshwater), HTP-c = Human toxicity (cancer), HTP-nc = Human toxicity (non-cancer), SQP = Soil quality index.Page 11 / 19

SP-2888 RG BrushSpecialty Polymer Coatingsper 1 m2 of covered and protected substrate for 60 years.TechImpact CategoryMethodUnitA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4GWP-totalTRACI 2.1kg CO2e10.30.814NDNDNDND122NDNDNDND0.1226.7115.8ODPTRACI 2.1kg CFC11 eq0.0003151.34e-8NDNDNDND0.00346NDNDNDND2.02e-94.59e-81.05e-8APTRACI 2.1kg SO2 eq0.06810.00436NDNDNDND0.797NDNDNDND0.0006550.00440.00432EPTRACI 2.1kg N eq0.02090.000829NDNDNDND0.239NDNDNDND0.0001250.002840.17POCPTRACI 2.1kg O3 eq1.170.122NDNDNDND14.2NDNDNDND0.01830.05790.068Abbreviations:GWP = Global Warming Potential, 100 years (may also be denoted as GWP-total, GWP-fossil (fossil fuels), GWP-biogenic (biogenic sources), GWP-luluc (land use and land use change)), ODP = Ozone Depletion Potential, AP = Acidification Potential, EP = Eutrophication Potential, SFP = Smog Formation Potential, POCP = Photochemical oxidant creation potential, ADP-Fossil = Abiotic depletion potential for fossil resources, ADP-Minerals&Metals = Abiotic depletion potential for non-fossil resources, WDP = Water deprivation potential, PM = Particular Matter Emissions, IRP = Ionizing radiation, human health, ETP-fw = Eco-toxicity (freshwater), HTP-c = Human toxicity (cancer), HTP-nc = Human toxicity (non-cancer), SQP = Soil quality index.Comparisons cannot be made between product-specific or industry average EPDs at the design stage of a project, before a building has been specified. Comparisons may be made between product-specific or industry average EPDs at the time of product purchase when product performance and specifications have been established and serve as a functional unit for comparison. Environmental impact results shall be converted to a functional unit basis before any comparison is attempted. Any comparison of EPDs shall be subject to the requirements of ISO 21930 or EN 15804. EPDs are not comparative assertions and are either not comparable or have limited comparability when they have different system boundaries. EPDs are not comparative assertions and are either not comparable or have limited comparability when they have different system boundaries, are based on different product category rules or are missing relevant environmental impacts. Such comparison can be inaccurate, and could lead to erroneous selection of materials or products which are higher-impact, at least in some impact categories.Page 12 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsResource Use Indicatorsper 1 m2 of covered and protected substrate for 60 years.MarketIndicatorUnitA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4RPREMJ3.840.105NDNDNDND19.7NDNDNDND0.007860.07040.117RPRMMJ2.420.0409NDNDNDND12.3NDNDNDND0.003070.01790.0244RPRTMJ6.270.146NDNDNDND32.1NDNDNDND0.01090.08830.142NRPREMJ17111.5NDNDNDND913NDNDNDND0.864153.01NRPRMMJ0.009580.000166NDNDNDND0.0487NDNDNDND0.00001240.00005840.000238NRPRTMJ17111.5NDNDNDND913NDNDNDND0.864153.01ADPFMJ21.61.61NDNDNDND116NDNDNDND0.1212.240.354FWm30.1150.0013NDNDNDND0.582NDNDNDND0.00009740.001490.00267Abbreviations:RPRE or PERE = Renewable primary resources used as energy carrier (fuel), RPRM or PERM = Renewable primary resources with energy content used as material, RPRT or PERT = Total use of renewable primary resources with energy content, NRPRE or PENRE = Non-renewable primary resources used as an energy carrier (fuel), NRPRM or PENRM = Non-renewable primary resources with energy content used as material, NRPRT or PENRT = Total non-renewable primary resources with energy content, SM: Secondary materials, RSF = Renewable secondary fuels, NRSF = Non-renewable secondary fuels, RE = Recovered energy, ADPF = Abiotic depletion potential, FW = Use of net freshwater resources, VOCs = Volatile Organic Compounds.per 1 m2 of covered and protected substrate for 60 years.TechIndicatorUnitA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4RPREMJ3.840.105NDNDNDND43.4NDNDNDND0.01570.1410.337RPRMMJ2.420.0409NDNDNDND27.1NDNDNDND0.006140.03590.07RPRTMJ6.270.146NDNDNDND70.5NDNDNDND0.02190.1770.407NRPREMJ17111.5NDNDNDND2010NDNDNDND1.7330.18.63NRPRMMJ0.009580.000166NDNDNDND0.107NDNDNDND0.00002490.0001170.000682NRPRTMJ17111.5NDNDNDND2010NDNDNDND1.7330.18.63ADPFMJ21.61.61NDNDNDND255NDNDNDND0.2424.481.02FWm30.1150.0013NDNDNDND1.28NDNDNDND0.0001950.002970.00765Abbreviations:RPRE or PERE = Renewable primary resources used as energy carrier (fuel), RPRM or PERM = Renewable primary resources with energy content used as material, RPRT or PERT = Total use of renewable primary resources with energy content, NRPRE or PENRE = Non-renewable primary resources used as an energy carrier (fuel), NRPRM or PENRM = Non-renewable primary resources with energy content used as material, NRPRT or PENRT = Total non-renewable primary resources with energy content, SM: Secondary materials, RSF = Renewable secondary fuels, NRSF = Non-renewable secondary fuels, RE = Recovered energy, ADPF = Abiotic depletion potential, FW = Use of net freshwater resources, VOCs = Volatile Organic Compounds.Page 13 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsWaste and Output Flow Indicatorsper 1 m2 of covered and protected substrate for 60 years.MarketIndicatorUnitA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4HWDkg0.037NDNDNDNDND0.185NDNDNDNDND0.926NDNHWDkg0.0331NDNDNDNDND0.165NDNDNDNDNDND8.76Abbreviations:HWD = Hazardous waste disposed, NHWD = Non-hazardous waste disposed, RWD = Radioactive waste disposed, HLRW = High-level radioactive waste, ILLRW = Intermediate- and low-level radioactive waste, CRU = Components for re-use, MFR or MR = Materials for recycling, MER = Materials for energy recovery, MNER = Materials for incineration, no energy recovery, EE or EEE = Recovered energy exported from the product system, EET = Exported thermal energy.per 1 m2 of covered and protected substrate for 60 years.TechIndicatorUnitA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4HWDkg0.037NDNDNDNDND0.406NDNDNDNDND1.85NDNHWDkg0.0331NDNDNDNDND0.364NDNDNDNDNDND25.1Abbreviations:HWD = Hazardous waste disposed, NHWD = Non-hazardous waste disposed, RWD = Radioactive waste disposed, HLRW = High-level radioactive waste, ILLRW = Intermediate- and low-level radioactive waste, CRU = Components for re-use, MFR or MR = Materials for recycling, MER = Materials for energy recovery, MNER = Materials for incineration, no energy recovery, EE or EEE = Recovered energy exported from the product system, EET = Exported thermal energy.Page 14 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsCarbon Emissions and Removalsper 1 m2 of covered and protected substrate for 60 years.MarketIndicatorUnitA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4BCRPkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDBCEPkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDBCRKkg CO20.0134NDNDNDNDND0.0669NDNDNDNDNDNDNDBCEKkg CO2-0.0134NDNDNDNDND-0.0669NDNDNDNDNDNDNDBCEWkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDCCEkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDCCRkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDCWNRkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDAbbreviations:BCRP = Biogenic Carbon Removal from Product, BCEP = Biogenic Carbon Emission from Product, BCRK = Biogenic Carbon Removal from Packaging, BCEK = Biogenic Carbon Emission from Packaging, BCEW = Biogenic Carbon Emission from Combustion of Waste from Renewable Sources Used in Production Processes, CCE = Calcination Carbon Emissions, CCR = Carbonation Carbon Removals, CWNR = Carbon Emissions from Combustion of Waste from Non-Renewable Sources used in Production Processes, GWP-luc = Carbon Emissions from Land-use Change.per 1 m2 of covered and protected substrate for 60 years.TechIndicatorUnitA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4BCRPkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDBCEPkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDBCRKkg CO20.0134NDNDNDNDND0.147NDNDNDNDNDNDNDBCEKkg CO2-0.0134NDNDNDNDND-0.147NDNDNDNDNDNDNDBCEWkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDCCEkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDCCRkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDCWNRkg CO2NDNDNDNDNDNDNDNDNDNDNDNDNDNDAbbreviations:BCRP = Biogenic Carbon Removal from Product, BCEP = Biogenic Carbon Emission from Product, BCRK = Biogenic Carbon Removal from Packaging, BCEK = Biogenic Carbon Emission from Packaging, BCEW = Biogenic Carbon Emission from Combustion of Waste from Renewable Sources Used in Production Processes, CCE = Calcination Carbon Emissions, CCR = Carbonation Carbon Removals, CWNR = Carbon Emissions from Combustion of Waste from Non-Renewable Sources used in Production Processes, GWP-luc = Carbon Emissions from Land-use Change.Page 15 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsScenariosTransport to the building/construction site (A4)A4 ModuleFuel Type:DieselVehicle Type:Truck and TrailerTransport Distance:2.391e+03 kmCapacity Utilization:33 %Packaging Mass:2.209e-01 kgGross density of products transported:1.738e+03 kg/m3Weight of products transported:1.544e+00 kgVolume of products transported:8.883e-04 m3Capacity utilization volume factor:1Assumptions for scenario development:Transport distance includes finished product to distribution center and distribution center to point of sale.Installation in to the building/construction site (A5)A5 ModuleProduct Lost per Functional Unit:0.1544 kgMass of Packaging Waste Specified by Type:0.2209 kgVOC Emissions:2000000000 ug/m3Assumptions for scenario development:As per the PCR, packaging waste management is reported in C1-C4 and VOC emissions in B1.The VOC content reported in this EPD is an estimated value and may not accurately represent the actual VOC emissions during the coating's curing process after installation. It is provided for informational purposes only and should not be used as a direct indicator of emissions under actual use conditions.VOC Test Method:ASTM D-2369Page 16 / 19

SP-2888 RG BrushSpecialty Polymer CoatingsReference Service LifeB1 ModuleRSL:60 YearsDeclared Product Properties:Excellent resistance to cathodic disbonding up to 85 ̊C (185 ̊F). Excellent adhesion to grit blasted steel surfaces, Fusion Bond Epoxy (FBE), Fiber Reinforced Plastic (FRP) and Polyolefin (PP/PE). Excellent abrasion, chemical, water absorption and impact resistance. Good flexibility. High build single coat application >50 mils. 100% solids, Isocyanate free. Easily applied by spray, brush, roller or cartridgeDesign Application Parameters:Use a Graco XP-70 Hydra-Cat or similar spray system with appropriate tip sizes and a heated hose bundle. Maintain material temperatures between 70°C to 80°C (158°F to 176°F) for the base and 20°C to 30°C (68°F to 86°F) for the hardener, with ambient conditions ranging from -40°F to 122°F (-40°C to 50°C). Ensure the substrate is at least 3°C (5°F) above the dew point before application. Consult product technical data sheet for detailed application parameters. Consult a Carboline representative for more information.An Assumed Quality of Work, When Installed in Accordance with The Manufacturer’s Instructions:Long term protection is achieved when installed in accordance with manufacturer's instructions. Theoretical coverage is 1604 ft2/gal at 1.0 mils (39.4 m2/l at 25 microns).Replacement (B4)B4 ModuleReference Service Life:60 YearsReplacement Cycle:5 (ESL/RSL)-1Further assumptions for scenario development:Product is assumed to be applied in an industrial environment. A market service lifetime and a technical service lifetime was adopted in the LCA model (see product specifications). Number of recoats is obtained by dividing the service lifetime. One initial coating application and subsequent recoats are required to maintain the average lifespan of a building, assumed to be 60 years.End of LifeC1 - C4 ModulesCollection ProcessCollected Separately:0.2209 kgCollected with Mixed Construction Waste:1.544 kgRecoveryRecycling:0.01988 kgLandfill:1.389 kgIncineration:0.1544 kgAssumptions for scenario development: InterpretationPage 17 / 19

SP-2888 RG BrushSpecialty Polymer Coatings The manufacturing of Carboline's products involves the direct procurement of raw materials from suppliers. These materials are then transported to Carboline's manufacturing facilities in Green Bay, WI, Dayton, NV, and Lake Charles, LA where they are stored and mixed to produce the coatings. At the application site, coatings are spray or brush applied to various exterior steel structural components to add a protective barrier to the steel substrate. The use stage (stage 3) has a smaller contribution to the overall life cycle performance.. For the analysis, It was assumed that Carboline's coatings require one initial coating application and multiple recoats to achieve the recommended service life of 60 years, aligning with the building's life cycle. The results were presented per one square meter of covered and protected substrate at a recommended coating thickness. The greatest contribution can be found in the use and maintenance stage due to the effect of the required repaints that will multiply the contribution of the product and design & construction stages together with the product application by the required number of recoats. For one single recoat, production stage, has the highest impact across all impact categories due mainly to the manufacture and transport of raw material, with some contribution of the manufacturing stage. At the application site, coatings are spray or brush applied to various exterior steel structural components to add a protective barrier to the steel substrate. This activity has a smaller contribution to the overall life cycle performance. End-of-life impacts are generally limited because most of the product is assumed to be landfilled, although impacts accumulate at each successive recoating. Given that the raw materials used in product manufacturing have the most significant impact, there are opportunities to substitute these materials with alternatives that have a lower environmental impact or to work with supplies in order to reduce impact along the supply chain. 0%20%40%60%80%100% GWP-total ODP AP EP POCP Production (A1 - A3)Construction (A4 - A5)Use (B1 - B7)End of Life (C1 - C4)Additional Environmental Information Before using this product, it is recommended that the operator read and follow all caution statements on the product data sheet and on the SDS for this product, and personal protective equipment must be used as directed. References• ISO 14040:2006/Amd 1:2020, “Environmental management - Life cycle assessment - Principles and framework”. • ISO 14044:2006/Amd 1:2017/Amd 2:2020, “Environmental management - Life cycle assessment - Requirements and guidelines”. • ISO 21930:2017, “Sustainability in buildings and civil engineering works - Core rules for environmental product declarations of construction products and services”. • NSF International, Product Category Rules for Environmental Product Declarations for Architectural Coatings, June 2015. • ISO 14025:2006, “Environmental labels and declarations - Type III environmental declarations - Principles and procedures”. • Bare, J. 2014. Tool for the Reduction and Assessment of Chemical and Other Environmental Impacts (TRACI) TRACI version 2.1 User’s Guide. US EPA Office of Research and Development, Washington, DC, EPA/600/R-12/554, http://nepis.epa.gov/Adobe/PDF/P100HN53.pdf • IPCC, 2013: Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change [Stocker, T.F., D. Qin, G.-K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex and P.M. Midgley (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 1535 pp. https://www.ipcc.ch/report/ar5/wg1/ • ecoinvent v3.9.1, December 2022, https://ecoinvent.org/the-ecoinvent-database/data-releases/ecoinvent-3-9-1/ • US Environmental Protection Agency Waste Reduction Model (WARM) v15, September 2022, https://www.epa.gov/warm/versions-waste-reduction-mod-el-warm#15 Page 18 / 19

SP-2888 RG BrushSpecialty Polymer Coatings• Ryberg, M., M. Vieira, M. Zgola, et al. Updated US and Canadian Normalization Factors for TRACI 2.1. CLEAN TECHNOLOGIES ENVIRONMENTAL POLICY. Springer, New York, NY, 16(2):329-339 (2014). http://dx.doi.org/10.1007/s10098-013-0629-z • Weidema B. P., C. Bauer, R. Hischier, et al. Overview and methodology. Data quality guideline for the ecoinvent database version 3. Ecoinvent Report 1(v3), St. Gallen: The ecoinvent Centre (2013). https://ecoinvent.org/wp-content/uploads/2021/09/dataqualityguideline_ecoinvent_3_20130506.pdf • Facts and figures about materials, waste and recycling (2018). https://www.epa.gov/facts-and-figures-about-materials-waste-and-recycling • Carboline Internal Report, Life Cycle Assessment of Carboquick 200 Coating, September 2023 • Carboline Internal Report, Amendment to Life Cycle Assessment of Carboquick 200 Coating for Sixteen Additional Coatings, March 2024 Page 19 / 19