Coating Resins Reference Guide Table of Contents

PCCR USA Coating Resins Page Latex Page Introduction 2 All Acrylic 22 Trade Names 3 Self-Crosslinking 22 Solvent Abbreviations 4 Styrene Acrylic 23 Column Headings 4 Vinyl Acrylic 23 Product Index 5 Liquid Polyesters Page Alkyds Page Conventional 25 Epoxy Esters - Conventional 8 High Solids 25 Epoxy Esters - High Solids 8 Polyester Dispersions 26 Chain Stopped - Conventional 9 Water Reducible 26 Chain Stopped - High Solids 9 Flat Alkyds - Conventional 10 Powder Page Long Oil - Conventional 11 Resins 28 Long Oil - High Solids 11 Curatives 29 Medium Oil - Conventional 12 Medium Oil - High Solids 12 Solution Acrylics Page Modi3ed Copolymers - Conventional 13 Conventional - Thermoplastic 31 Modi3ed Copolymers - High Solids 13 Conventional - Thermoset 31

Phenolic-Modi3ed - Conventional 14 Conventional - Thermoset Carboxyl-Functional 332 Phenolic-Modi3ed - High Solids 14 High Solids - Thermoset 33 Silicone Modi3ed - Conventional 15 Water Reducible - Thermoset 33 Silicone Modi3ed - High Solids 15 Oil-Modi3ed Urethanes - Conventional 16 UV Curables Page Oil-Modi3ed Urethanes - High Solids 16 UV Curables 35 Short Oil - Conventional 17 Short Oil - High Solids 17 Reference Page Specialty Alkyds - Chlorine-Modi3ed 18 Aquamac Quick Reference Guide 37 Specialty Alkyds - Latex Modi3ers 18 Quick Reference Guide for 2K Systems 39 Specialty Alkyds - Oxazoline-Modi3ed 18 PCCR Resins with t-Butyl Acetate 40 Water Reducible - Chain-Stopped 19 HAPs-Free Product List 41 Water Reducible - Epoxy Ester 19 Coatings Calculations 43 Water Reducible - Phenolic-Modi3ed 19 Glossary 43 Water Reducible - Polyole3n 19 Quality Policy 47 Water Reducible - Short Oil 19 Coating Resin Distributors 47 Water Reducible - Silicone-Modi3ed 20 Water Reducible - Stain Vehicle 20

PCCR USA, Inc. 1 June 2013 Introduction

Our Coating Resins Reference Guide is your ready reference to the wide range of quality polymers available from PCCR USA.

PCCR USA, Inc. continues a 60-year history of producing high-quality resins for the coatings industry. As your resin partner, PCCR … … is committed to outstanding technical and customer service … is dedicated to creating innovative products … is positioned to supply products throughout North America

Our innovative R&D staff and Technical Service Specialists have years of experience developing and formulating solutions for your toughest coatings applications. We are committed to meeting your requirements as quickly and completely as possible—PCCR is ready to be your chosen supplier partner, now and in the future.

PCCR USA, Inc. 2 June 2013 Trade Names

Trade Names

Acrylamac™ Conventional Acrylics

Acrylamac™ HS High Solids Acrylics

Acrylamac™ WR Water Reducible Acrylics

Alcure™ Polymeric Isocyanate Curatives

Aquamac™ All Acrylic, Self-Crosslinking, Styrene Acrylic, and Vinyl Acrylic Latex Polymers

Archemis® High Solids Long Oil Alkyds

Carbamac™ Conventional Oil-Modi'ed Polyurethanes

Carbamac™ HS High Solids Oil-Modi'ed Polyurethanes

Chemacoil™ Conventional Vinyl Oxazoline-Modi'ed Esters

Duramac™ Conventional Alkyds, Flat Alkyds, and Thixotropic Alkyds

Duramac™ HS High Solids Alkyds and Latex Modi'ers

Duramac™ WR Water Reducible Alkyds

Hydreau® Polymer Dispersions

Lumicure™ UV Curable Resins

Macopol™ Conventional Copolymer Resins

Macopol™ HS High Solids Copolymer Resins

Macopol™ WR Water Reducible Copolymer Resins

Polymac™ Polyester Resins for Liquid and Powder Coatings

Polymac™ HS High Solids Liquid Polyesters

Polymac™ WR Water Reducible Liquid Polyesters

Rezimac™ Conventional Epoxy Esters, Silicone Copolymers, and Specialty Resins

Rezimac™ HS High Solids Epoxy Esters and Silicone Modi'ed Alkyds

Rezimac™ WR Water Reducible Epoxy Esters, Silicone Alkyds, and Stain Vehicles

PCCR USA, Inc. 3 June 2013 Solvent Abbreviations & Column Headings

Solvent Abbreviations Column Headings Arom 100 Aromatic 100 % NVM Nonvolatile material expressed as a percent of the total weight of the resin solution. Arom 150 Aromatic 150 % NVV Nonvolatile material expressed as a percent of the total volume of the resin solution. EB Ethylene Glycol Monobutyl Ether Eq. Wt. The equivalent weight of a material is its molecular weight divided by its functionality, the latter being the number of EEP Ethyl 3-Ethoxypropionate a given reactive group present on an average molecule of the material. Expressed based on a solids basis. EP Ethylene Glycol Monopropyl Ether pH The degree of acidity or alkalinity of a solution expressed on a relative scale of 1 to 14 with 7 being neutral. EtOH Ethyl Alcohol Particle Size The average diameter of a distribution of particles, usually HDODA Hexanediol Diacrylate expressed in microns or nanometers. Tg The temperature at which the non-crystalline portion of a i-BuOH Isobutyl Alcohol polymer is transformed from a viscous rubbery state to a brittle glass-like material. Generally used as an indication Isopar G Isoparaf.n Solvent of the 7exibility and hardness of the .nished paint .lm. MFFT The minimum temperature at which an applied coating MAK Methyl Amyl Ketone forms a continuous .lm, as evidenced by the visual lack of cracking or powdery appearance of .lm and .lm MIBK Methyl Isobutyl Ketone integrity, by testing the .lm on a temperature gradient plate. MPK Methyl Propyl Ketone Oil Type Synthetic or naturally occurring vegetable material that contributes fatty acids used in producing alkyd resins. MS Mineral Spirits Wt/Gal Mass per volume of polymer as supplied expressed in n-BuAc Normal Butyl Acetate pounds per gallon. Viscosity The measurement of a polymer’s resistance to 7ow n-BuOH Normal Butyl Alcohol expressed in Gardner-Holdt units or centipoises. Reduced Measured viscosity (as de.ned previously) at a speci.ed PMA Propylene Glycol Monomethyl Viscosity percent weight solids typically lower than the solids of the Ether Acetate polymer as supplied. PnP Propyl Propasol Color A measurement of the light re7ectance of a polymer in liquid form expressed in Gardner units on a relative scale s-BuOH Secondary Butyl Alcohol of 1 to 14 with 1 being water white. Acid # The number of milligrams of KOH required to neutralize SC-100 Hydrocarbon Solvent (solids) the free acids in one gram of polymer solids.

Solvent 140 Aromatic Solvent OH # Hydroxyl value – the number of milligrams of KOH equivalent to the hydroxyl groups available per gram of polymer. The hydroxyl equivalent weight is given by VM&P VM&P Naphtha 56,100 divided by the hydroxyl value. VT Vinyl Toluene Solvents Dilution solvents used to achieve the desired viscosity.

PCCR USA, Inc. 4 June 2013 Product Index

Product Name Type Page Product Name Type Page Acrylamac 16-1066 Thermoplastic solution acrylic 31 Chemacoil 240-2101 Oxazoline-modified alkyd 18 Acrylamac 17-1100 Thermoset solution acrylic 31 Duramac 50-5003 Long oil alkyd 11 Acrylamac 231-1195 Thermoplastic solution acrylic 31 Duramac 50-5060 Long oil alkyd 11 Acrylamac 231-1266 Thermoplastic solution acrylic 31 Duramac 50-5070 Long oil alkyd 11 Acrylamac 232-1128 Carboxyl solution acrylic 32 Duramac 51-5110 Chain-stopped alkyd 9 Acrylamac 232-1176 Carboxyl solution acrylic 32 Duramac 51-5113 Medium oil alkyd 12 Acrylamac 232-1188 Carboxyl solution acrylic 32 Duramac 51-5117 Medium oil alkyd 12 Acrylamac 232-1189 Carboxyl solution acrylic 32 Duramac 51-5135 Medium oil alkyd 12 Acrylamac 232-1321 Thermoset solution acrylic 31 Duramac 51-5150 Medium oil alkyd 12 Acrylamac 232-1375 Thermoset solution acrylic 31 Duramac 51-5184 Medium oil alkyd 12 Acrylamac 232-1700 Thermoset solution acrylic 31 Duramac 52-5205 Short oil alkyd 17 Acrylamac 232-1711 Thermoset solution acrylic 31 Duramac 52-5222 Short oil alkyd 17 Acrylamac HS 232-2314 Thermoset solution acrylic 33 Duramac 52-5243 Short oil alkyd 17 Acrylamac HS 232-2315 Thermoset solution acrylic 33 Duramac 52-5251 Short oil alkyd 17 Acrylamac HS 232-2328 Thermoset solution acrylic 33 Duramac 52-5252 Short oil alkyd 17 Acrylamac HS 232-2350 Thermoset solution acrylic 33 Duramac 52-5290 Chain-stopped alkyd 9 Acrylamac HS 232-2980 Thermoset solution acrylic 33 Duramac 52-7731 Chain-stopped alkyd 9 Acrylamac WR 17-7241 Thermoset solution acrylic 33 Duramac 52-7733 Chain-stopped alkyd 9 Acrylamac WR 232-3312 Thermoset solution acrylic 33 Duramac 52-7784 Chain-stopped alkyd 9 Alcure 4400 Powder curative 29 Duramac 54-5465 Medium oil alkyd 12 Alcure 4402 Powder curative 29 Duramac 56-5619 Flat alkyd 10 Alcure 4430 Powder curative 29 Duramac 56-5633 Flat alkyd 10 Alcure 4431 Powder curative 29 Duramac 201-1170 Long oil alkyd 11 Alcure 4450 Powder curative 29 Duramac 201-1180 Long oil alkyd 11 Alcure 4470 Powder curative 29 Duramac 204-1036 Medium oil alkyd 12 Aquamac 260 Styrene acrylic latex 23 Duramac 204-1409 Medium oil alkyd 12 Aquamac 300 Styrene acrylic latex 23 Duramac 204-1434 Medium oil alkyd 12 Aquamac 440 Styrene acrylic latex 23 Duramac 204-1452 Medium oil alkyd 12 Aquamac 450 All acrylic latex 22 Duramac 204-1829 Medium oil alkyd 12 Aquamac 477 Styrene acrylic latex 23 Duramac 207-1040 Short oil alkyd 17 Aquamac 480 Styrene acrylic latex 23 Duramac 207-1109 Short oil alkyd 17 Aquamac 490 Self-crosslinking latex 22 Duramac 207-1110 Short oil alkyd 17 Aquamac 510 All acrylic latex 22 Duramac 207-1205 Short oil alkyd 17 Aquamac 541 Styrene acrylic latex 23 Duramac 207-1388 Flat alkyd 10 Aquamac 550 Styrene acrylic latex 23 Duramac 207-1405 Chain-stopped alkyd 9 Aquamac 570 Styrene acrylic latex 23 Duramac 207-1985 Short oil alkyd 17 Aquamac 575 Self-crosslinking latex 22 Duramac HS 55-5501 Long oil latex modifier 18 Aquamac 580 Vinyl acrylic latex 23 Duramac HS 55-5543 Long oil latex modifier 18 Aquamac 700 Styrene acrylic latex 23 Duramac HS 57-5720 Chain-stopped alkyd 9 Aquamac 705 Styrene acrylic latex 23 Duramac HS 57-5731 Chain-stopped alkyd 9 Aquamac 720 All acrylic latex 22 Duramac HS 57-5742 Short oil alkyd 17 Aquamac 737 Styrene acrylic latex 23 Duramac HS 57-5816 Long oil alkyd 11 Aquamac 740 Styrene acrylic latex 23 Duramac HS 57-5819 Chlorinated alkyd 18 Aquamac 780 Self-crosslinking latex 22 Duramac HS 57-5866 Long oil alkyd 11 Archemis QD 201-2195 Long oil alkyd 11 Duramac HS 57-5875 Chain-stopped alkyd 9 Carbamac 43-4310 Oil-modified urethane 16 Duramac HS 201-2516 Long oil latex modifier 18 Carbamac 43-4355 Oil-modified urethane 16 Duramac HS 204-2768 Medium oil alkyd 12 Carbamac HS 57-4372 Oil-modified urethane 16 Duramac HS 207-1102 Short oil coconut alkyd 17 Carbamac HS 57-5794 Oil-modified urethane 16 Duramac HS 207-2012 Short oil alkyd 17 Carbamac HS 57-5849 Oil-modified urethane 16 Duramac HS 207-2142 Chain-stopped alkyd 9

PCCR USA, Inc. 5 June 2013 Product Index

Product Name Type Page Product Name Type Page Duramac HS 207-2706 Short oil alkyd 17 Polymac WR 220-3203 Liquid polyester 26 Duramac HS 207-2707 Chain-stopped alkyd 9 Polymac WR 220-3204 Liquid polyester 26 Duramac HS 207-2725 Chain-stopped alkyd 9 Polymac 2090 Powder resin 28 Duramac HS 207-2742 Chain-stopped alkyd 9 Polymac 2360 Powder resin 28 Duramac HS 207-2810 Phenolic-modified alkyd 14 Polymac 2510 Powder resin 28 Duramac HS 207-2852 Chain-stopped alkyd 9 Polymac 3000 Powder resin 29 Duramac HS 211-1033 Long oil latex modifier 18 Polymac 3020 Powder resin 29 Duramac WR 74-7451 Short oil alkyd 19 Polymac 3110 Powder resin 29 Duramac WR 74-7474 Chain-stopped alkyd 19 Polymac 3160 Powder resin 29 Duramac WR 74-7478 Phenolic-modified alkyd 19 Polymac 3220 Powder resin 29 Duramac WR 74-7495 Chain-stopped alkyd 19 Polymac 5040 Powder resin 28 Duramac WR 207-3074 Chain-stopped alkyd 19 Polymac 5050 Powder resin 28 Duramac WR 207-3119 Chain-stopped alkyd 19 Polymac 5160 Powder resin 28 Duramac WR 207-3497 Chain-stopped alkyd 19 Polymac 5190 Powder resin 28 Duramac WR 207-3738 Chain-stopped alkyd 19 Polymac 5650 Powder resin 28 Duramac WR 216-3610 Alkyd stain vehicle 20 Polymac 5900 Powder resin 28 Hydreau 290-3320 Polyester dispersion 26 Polymac 6140 Powder resin 29 Hydreau 290-3321 Polyester dispersion 26 Rezimac 12-1204 Epoxy ester resin 8 Hydreau 290-4156 Polyester dispersion 26 Rezimac 12-1222 Epoxy ester resin 8 Hydreau 290-4254 Polyester dispersion 26 Rezimac 52-5203 Phenolic-modified alkyd 14 Lumicure 15-1516 UV resin 35 Rezimac 62-6203 Silicone-modified alkyd 15 Lumicure 15-1560 UV resin 35 Rezimac 62-6247 Silicone-modified alkyd 15 Lumicure 223-6517 UV resin 35 Rezimac 62-6260 Silicone-modified alkyd 15 Macopol 53-5303 Copolymer-modified alkyd 13 Rezimac 62-6283 Silicone-modified alkyd 15 Macopol 53-5359 Copolymer-modified alkyd 13 Rezimac 204-1144 Phenolic-modified alkyd 14 Macopol 214-1003 Copolymer-modified alkyd 13 Rezimac 213-1136 Silicone-modified alkyd 15 Macopol 214-1008 Copolymer-modified alkyd 13 Rezimac 213-1285 Silicone-modified alkyd 15 Macopol 214-1025 Copolymer-modified alkyd 13 Rezimac 216-1074 Phenolic-modified alkyd 14 Macopol 214-1092 Copolymer-modified alkyd 13 Rezimac HS 57-5703 Phenolic-modified alkyd 14 Macopol 214-1118 Copolymer-modified alkyd 13 Rezimac HS 57-5747 Silicone-modified alkyd 15 Macopol HS 57-5847 Copolymer-modified alkyd 13 Rezimac HS 57-5754 Phenolic-modified alkyd 14 Macopol HS 214-1158 Copolymer-modified alkyd 13 Rezimac HS 57-5839 Epoxy ester resin 8 Macopol HS 214-2105 Copolymer-modified alkyd 13 Rezimac HS 216-2134 Phenolic-modified alkyd 14 Macopol HS 214-2122 Copolymer-modified alkyd 13 Rezimac WR 73-7331 Epoxy ester resin 19 Macopol HS 214-2758 Copolymer-modified alkyd 13 Rezimac WR 73-7358 Polyolefin alkyd 19 Polymac 66-6613 Liquid polyester 25 Rezimac WR 74-7435 Silicone-modified alkyd 20 Polymac 66-6686 Liquid polyester 25 Polymac 220-1001 Liquid polyester 25 Polymac 220-1926 Liquid polyester 25 Polymac 220-1935 Liquid polyester 25 Polymac 220-1959 Liquid polyester 25 Polymac HS 57-5761 Liquid polyester 25 Polymac HS 57-5763 Liquid polyester 25 Polymac HS 57-5776 Liquid polyester 25 Polymac HS 57-5782 Liquid polyester 25 Polymac HS 57-5789 Liquid polyester 25 Polymac HS 220-2010 Liquid polyester 25 Polymac HS 220-2015 Liquid polyester 25 Polymac HS 220-2882 Liquid polyester 25 Polymac WR 72-7203 Liquid polyester 26

PCCR USA, Inc. 6 June 2013 Alkyds

Epoxy Esters Medium Oil Alkyds OilOilOil- Oil ---ModifiedModified Urethanes ChainChain----StoppedStopped Modified Copolymers Short Oil Alkyds

Flat Alkyds PhenolicPhenolic----ModifiedModified Specialty Alkyds Long Oil Alkyds SiliconeSilicone----ModifiedModified Water Reducible

industrial maintenance coatings trafﬁc paints machinery & heavy equipment automotive primers marine coatings

Alkyds

Alkyd Epoxy Esters Conventional % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) Features and Benefits

Rezimac TOFA 60 51.8 7.8 MS Z1–Z3 I–K @ 8 10 Excellent adhesion, abrasion resistance and alkali 12-1204 40% MS resistance for architectural primers, sealers and floor coatings Rezimac TOFA 50 44.6 8.0 Xylene W–Y I–P @ 4 3 Good chemical and corrosion resistance, adhesion and 12-1222 40% hardness for industrial maintenance applications xylene High Solids Rezimac HS Fatty acid 70 65.9 8.4 n-BuAc X–Z 8 3 Excellent corrosion, humidity, and gasoline resistance 57-5839 blend with adhesion to various substrates including plastic for air-dry and force-dry applications; can be formulated to meet VOC requirements of 3.5 lbs/gal (420 g/L)

PCCR USA, Inc. 8 June 2013 Alkyds

Chain-Stopped Conventional % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) OH # Features and Benefits

Duramac Soya 50 41.3 7.7 MS, PMA Z4–Z6 S–V @ 6 12 62 Excellent weatherability and well suited for 51-5110 35% MS high gloss, durable exterior coatings; fast dry to tape times; this product has excellent adhesion, excellent flexibility and good pigment wetting Duramac TOFA 50 42.7 8.3 Xylene W–Z F–I @ 40% 6 12 112 Fast dry with good gloss for general 52-5290 xylene industrial air-dry and baking finishes

Duramac TOFA 50 42.7 8.3 Xylene Y–Z1 E–H @ 6 10 145 Compatible with melamine and urea resins 52-7731 40% with fast air-dry and good gloss xylene

Duramac TOFA 50 42.3 8.3 Xylene Z3–Z5 N–P @ 6 10 145 Very fast dry, high drink alkyd for general 52-7733 40% industrial air-dry and baking applications xylene Duramac TOFA 65 56.3 8.5 MAK T–X K–N @ 8 12 123 Higher solids alkyd with good gloss and 52-7784 60% MAK hardness Duramac Soya 50 42.5 8.3 Xylene U–W C–E @ 6 12 85 Superior exterior durability and very fast dry 207-1405 40% for machinery and implement coatings; can xylene also be used in low temperature bake finishes High Solids

Duramac HS TOFA 75 68.3 8.6 MPK, Z–Z2 12 10 Excellent dry rate with good hardness, gloss 57-5720 n-BuAc, and color retention for general industrial xylene applications; can be formulated to 3.5 lbs/ (trace) gal (420 g/L) VOC

Duramac HS Soya 75 69.3 8.8 MPK, Z1–Z3 I–K @ 10 10 Good hardness, gloss and color retention 57-5731 n-BuAc, 60% with excellent viscosity reduction curve for xylene xylene industrial air-dry and baking applications (trace)

Duramac HS Fatty acid 75 68.0 8.8 Xylene, Z–Z2 10 10 Recommended for corrosion resistance, 57-5875 blend MPK exterior durability and fast dry; can be formulated to 3.5 lbs/gal (420 g/L) VOC or below

Duramac HS Soya, DCO 75 68.3 8.9 MAK, Z3–Z4.5 L–O @ 8 13 Good exterior durability, good dry times, 207-2142 xylene 60% lower yellowing and good color retention xylene

Duramac HS Fatty acid 75 67.9 8.9 Xylene, Z–Z2 G–H @ 8 15 Short dry-to-handle time, fast cutback, low 207-2707 blend MPK 60% viscosity and good exterior durability; lower xylene VOC is possible

Duramac HS DCO, soya 75 68.2 8.9 Xylene, Z–Z2 8 15 Designed to produce lacquer-like dry times; 207-2725 MPK low viscosity and at relatively low VOCs

Duramac HS Sunflower 75 69.0 9.0 n-BuAc, Z1–Z3 H–I @ 6 15 Good gloss and color retention with fast 207-2742 xylene 60% viscosity cutback for air-dry enamels xylene

Duramac HS DCO, soya 75 67.3 8.9 MAK Z–Z3 F–I @ 60% 10 14 HAPs-free with excellent gloss and exterior 207-2852 MAK durability; low viscosity at relatively low VOC

PCCR USA, Inc. 9 June 2013 Alkyds

Flat Alkyds Conventional % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) Features and Benefits

Duramac Soya, 46 37.2 7.4 MS Z1–Z4 U–X @ 40% 9 11 Higher solids vehicle that provides good dry and 56-5619 linseed MS enamel holdout characteristics Duramac TOFA 31 24.7 7.1 MS W–Z E–H @ 25% 7 10 Good dry, enamel holdout, and soil removal 56-5633 MS

Duramac TOFA 30 23.6 7.1 Solvent V–Y D–Z10 @ 25% 7 10 Has good compatibility with other resins; good 207-1388 140 Solvent 140 viscosity control and enamel holdout; effective modifier for gloss reduction

PCCR USA, Inc. 10 June 2013 Alkyds

Long Oil Conventional % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) Features and Benefits

Duramac TOFA 70 63.1 8.0 MS Z5–Z7 E–G @ 8 10 Good brush/roll application and excellent 50-5003 50% MS appearance Duramac Soya 60 52.0 7.7 MS U-W D–G @ 6 10 Proven performance in a variety of trade sales 50-5060 50% MS and general maintenance coatings

Duramac Soya 70 63.0 8.0 MS Z2–Z4 D–G @ 7 10 Best balance of cost and performance with 50-5070 50% MS formulating versatility from satin to very high gloss coatings for architectural and general maintenance; meets TT-R-266D, Type I, Class A

Duramac Soya 70 63.0 8.0 MS Z2–Z4 10 10 HAPs-free version of 50-5070; can be used in a 201-1170 wide variety of trade sales and general maintenance coatings; excellent coating appearance Duramac TOFA 60 52.8 7.7 MS W–Y H–K @ 6 9 For interior and exterior architectural or 201-1180 50% MS maintenance finishes High Solids

Archemis QD Sunflower, 96 95 8.4 MS Z1–Z3 H–L @ 8 12 Dry times comparable to conventional systems; 201-2195 fatty acid 75% MS excellent gloss and appearance; can achieve 150 blend g/L VOC for semigloss coatings with great brushability

Duramac HS Sunflower, 90 87.7 8.2 MS, Z–Z2 H–J @ 6 10 Good viscosity reduction for architectural 57-5816 fatty acid xylene 70% MS applications; can be formulated to 2.1 lbs/gal blend (trace) (250 g/L) VOC

Duramac HS Sunflower 90 87.3 8.3 MS Z1–Z3 I–K @ 7 12 Improved yellowing resistance and gloss 57-5866 70% MS retention for interior and exterior architectural enamels; can be formulated to 2.1 lbs/gal (250 g/L) VOC

PCCR USA, Inc. 11 June 2013 Alkyds

Medium Oil Conventional % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) OH # Features and Benefits

Duramac Soya 50 40.7 7.6 MS Z5–Z7 V–X @ 6 10 114 High drink alkyd with fast dry, color and 51-5113 40% MS gloss retention for air-dry primers and enamels

Duramac Soya 50 41.7 7.6 MS Y–Z2 E–H @ 6 10 90 High gloss with good color and color 51-5117 40% MS retention for low odor architectural and industrial maintenance applications; can be used to modify long oil alkyds to improve dry

Duramac Soya 50 42.3 7.5 VM&P Z2–Z4 N–Q @ 7 10 96 Good gloss, color retention, flexibility and 51-5135 40% durability for general industrial coatings; VM&P compatible with medium oil chain-stopped alkyds Duramac Soya, 50 40.5 7.6 MS W–Y C–F @ 6 10 101 For brushable industrial maintenance 51-5150 linseed 40% MS coatings; meets TT-R-266D, Type III

Duramac Soya 50 40.7 7.6 MS Z1.5–Z3.5 K–O @ 5 12 55 General purpose alkyd with good dry, 51-5184 40% MS durability and brushability for architectural and industrial maintenance systems

Duramac Soya 60 52.7 7.7 VM&P Z4–Z7 E–H @ 8 8 Also used in general metal and structural 54-5465 45% steel applications VM&P

Duramac TOFA 50 41.1 7.7 MS Z4–Z7 Q–U @ 8 8 Fast dry, good abrasion resistance, and high 204-1036 40% MS gloss; good rheological response with thixotropic alkyds Duramac Soya 50 40.9 7.6 MS W–Z E–G @ 8 10 57 Good dry, high gloss, good flow and 204-1409 40% MS leveling, and color retention; meets TT-R-266D, Type IV Duramac Soya 65 60 8.4 Xylene, MS Y–Z 6 6 100 A good high gloss resin with hydroxyl 204-1434 functionality for baking systems where additional adhesion is desired; very fast dry, excellent flow and leveling and an excellent pigment wetter

Duramac Soya 50 40.7 7.5 VM&P Z1–Z3 F–I @ 40% 8 9 72 Good gloss, color retention, flexibility and 204-1452 VM&P durability for general industrial coatings

Duramac TOFA, 50 41.9 7.9 Xylene, Z–Z2 12 16 Fast-drying resin with good initial 204-1829 linseed VM&P, MS appearance; good gloss and good tack-free time High Solids

Duramac HS Soya, 80 76.0 8.8 Arom 100, Z1–Z3 B–C @ 8 10 50 Fast-drying vehicle with good gloss 204-2768 linseed n-BuAc, 60% retention, hardness and exterior durability xylene n-BuAc

PCCR USA, Inc. 12 June 2013 Alkyds

Modiﬁed Copolymers Conventional Modifier % % Wt/ Reduced Color Acid # Product Name Type Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) Features and Benefits

Macopol VT Soya 50 42.6 7.4 VM&P Y–Z1 N–Q @ 6 8 Good gloss and adhesion to wood surfaces 53-5303 40% coupled with fast dry VM&P Macopol Acrylic, DCO 50 45.0 8.0 Xylene S–V C–F @ 8 10 Excellent exterior durability, fast dry and good 53-5359 styrene 40% adhesion to metal surfaces for automotive xylene applications

Macopol VT, Linseed 60 52.6 7.4 VM&P Y–Z1 B–E @ 5 10 Excellent gloss, good aliphatic solvent 214-1003 styrene 40% tolerance with fast solvent release in very hard VM&P films; takes high pigment loading

Macopol VT Soya, 60 53.4 7.7 MS Z–Z2 5 5 Good hardness and dry properties for 214-1008 DCO architectural applications

Macopol Styrene Soya 60 53.7 8.1 Xylene, Z2–Z5 G–K @ 8 10 Good durability, gloss, and gloss retention for 214-1025 VM&P 40% air and force-dry applications xylene

Macopol VT Soya 60 52.3 7.7 VM&P Z–Z2 C–F @ 5 8 Extremely fast dry and good adhesion to a 214-1092 40% variety of substrates; can be formulated into VM&P stain-blocking primers Macopol Acrylic, Fatty acid 60 53.1 8.3 Xylene, X–Y N/A 6 5 Good product for both air-dry or force cure; 214-1118 styrene blend MS high gloss, excellent film hardness and fast dry-to-handle in a high solids formula High Solids

Macopol HS VT, Soya, 80 77.0 8.3 Xylene Z2–Z5 G–J @ 10 15 2.8 lbs/gal VOC formulas at good spray 57-5847 styrene linseed 60% viscosity; also suitable for wood or stain VM&P blocking primers at 340 g/L (2.8 lbs/gal); soluble in aliphatic hydrocarbon solvents

Macopol HS Styrene Fatty acid 70 65.0 8.6 n-BuAc Y–Z1 J–L @ 6 4 Fast dry, excellent exterior durability, and good 214-1158 acrylic blend 60% corrosion resistance; meets 3.5 lbs/gal VOC n-BuAc with good application properties; HAPs-free version of 214-2122

Macopol HS VT Soya 80 77.6 8.2 Xylene Z3–Z4 4 10 Extremely fast cutback with fast dry and good 214-2105 hardness development; can be formulated to meet VOC requirements below 3.0 lbs/gal (360 g/L)

Macopol HS Styrene Fatty acid 70 63.4 8.5 Xylene Z–Z2 U–W @ 7 4 Excellent durability, color and gloss retention; 214-2122 acrylic blend 65% can be formulated to meet VOC requirements xylene of 3.0 lbs/gal (360 g/L)

Macopol HS VT, Soya, 75 69.7 8.3 MAK Z–Z3 J–M @ 7 12 Quick drying with fast hardness development, 214-2758 styrene linseed 65% good gloss and low VOC (3.0-3.5 lbs/gal) MPK

PCCR USA, Inc. 13 June 2013 Alkyds

Phenolic-Modiﬁed Conventional % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) Features and Benefits Rezimac Linseed, 50 42.2 8.4 Xylene X–Z G–J @ 12 35 Phenolic and rosin-modified alkyd with lacquer-like dry 52-5203 tung 40% for general metal primers xylene

Rezimac Linseed 60 51.3 8.0 VM&P, Z2–Z4 D–G @ 10 20 Recommended for use in quick-dry primers for general 204-1144 tolene, 40% metal finishing, such as fast-dry topcoats for drums and isobutanol VM&P trash bins; good adhesion and water resistance

Rezimac Tung 54 47.9 7.4 MS F–H 8 Used in formulation of clear wood varnishes and 216-1074 aluminum pigmented finishes; good leafing properties, good chemical and abrasion resistance High Solids

Duramac HS Soya 76 69 8.8 MPK, Z–Z2 11 22 A fast-drying, low VOC phenolic-modified alkyd that 207-2810 n-BuAc, can be formulated to meet SSPC Paint 25 Spec; xylene excellent non-lifting properties

Rezimac HS Linseed 75 70 8.9 n-BuAc, Z3–Z5 Q–T @ 12 30 Fast tack-free dry times; excellent water resistance with 57-5703 xylene 65% good gloss; excellent adhesion and package stability n-BuAc

Rezimac HS TOFA 75 68.1 8.7 n-BuAc, Z–Z2 C–E @ 10 22 Excellent exterior durability, corrosion resistance and 57-5754 MPK, 60% flexibility for industrial air-dry coatings; fast xylene MPK recoatability; resists lifting when topcoated (trace) Rezimac HS Tung 75 70 7.7 MS T–V H–J @ 9 Low viscosity tung/phenolic resin for use in wood stains 216-2134 66% MS and varnishes; good adhesion and exterior durability

PCCR USA, Inc. 14 June 2013 Alkyds

Silicone-Modiﬁed Conventional % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) Features and Benefits

Rezimac TOFA 50 42.0 8.3 Xylene M–O A1–B @ 8 20 Chain-stopped alkyd with good durability for air-dry and 62-6203 40% MS bake applications Rezimac Soya 50 43.2 8.2 Xylene U–X 11 6 Silicone alkyd copolymer with epoxy modification with 62-6247 good adhesion, chemical resistance and heat resistance for air-dry and bake applications

Rezimac Soya 60 50.7 7.9 MS W–Y C–F @ 8 12 Good exterior durability and flexibility in air-dry 62-6260 45% MS applications; can be formulated to meet the requirements of TT-E-1593B Rezimac Soya 50 41.4 7.6 MS I–L 7 12 Good dry time with good gloss development and overall 62-6283 appearance; excellent color and gloss retention; good flexibility Rezimac Linseed 50 42.5 8.3 Xylene P–U 6 15 A silicone-modified alkyd resin with good heat 213-1136 resistance and gloss in air-dry applications Rezimac Linseed, 50 41.4 7.6 MS, VM&P N–Q 9 12 Designed for coatings requiring excellent exterior color 213-1285 soya and gloss retention; also recommended for high heat- resistant aluminum coatings, including those requiring TT-P-28G compliance High Solids

Rezimac HS Soya 80 74.8 8.7 MAK, Z–Z2 H–J @ 8 12 Excellent exterior durability with excellent gloss 57-5747 n-BuAc 65% retention and flexibility n-BuAc

PCCR USA, Inc. 15 June 2013 Alkyds

Oil-Modiﬁed Urethanes Conventional Modifier % % Wt/ Reduced Color Acid # Product Name Type Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) Features and Benefits

Carbamac TDI Linseed 60 52.0 7.7 MS Z–Z3 B–E @ 6 7 Good hardness and abrasion resistance 43-4310 48% MS balanced with fast through-dry

Carbamac TDI Soya 55 47.4 7.6 MS W–Y0.5 D–G @ 4 4 Good viscosity allows for high build clears; 43-4355 48% MS good color retention, good hardness and abrasion resistance with good through-dry High Solids IPDI Soya 70 64.0 7.7 MS V–X F–H @ 8 4 Can be formulated to 350 g/L VOC for Carbamac HS 60% MS exterior applications needing excellent gloss 57-4372 retention and abrasion resistance TDI Soya 80 75.1 8.0 MS Z–Z G–I @ 6 3 Can be formulated to 350 g/L VOC for interior Carbamac HS 2 64% MS trade sales applications that require fast dry, 57-5794 hardness and flexibility Carbamac HS TDI Sunflower 80 76.0 7.8 MS H–J 4 1 Designed to be a modifier for conventional 57-5849 systems to meet 350 g/L VOC limits

PCCR USA, Inc. 16 June 2013 Alkyds

Short Oil Conventional % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) OH # Features and Benefits

Duramac Coconut 60 52.6 8.6 Xylene Z3–Z5 C–E @ 2 8 175 High quality non-yellowing baking enamels 52-5205 40% and plasticizers for nitrocellulose lacquers xylene

Duramac Coconut 60 50.6 8.1 VM&P, Z3.5–Z5.5 R–V @ 3 10 Non-drying, non-yellowing, high gloss alkyd 52-5222 isobutanol 50% recommended for high quality baking finishes xylene and as a lacquer plasticizing resin

Duramac TOFA 50 42.5 8.3 Xylene Z1.5–Z3.5 F–I @ 40% 5 12 180 Good color and color retention for general 52-5243 xylene purpose baking finishes

Duramac TOFA 50 43.1 8.2 Xylene Z2–Z4 C–F @ 6 12 Good gloss retention and salt spray resistance 52-5251 35% in for exterior applications; easily formulated into xylene bake coatings

Duramac Soya 50 42.7 8.3 Xylene Z1–Z3 H–J @ 4 12 Good exterior gloss retention; compatible with 52-5252 40% urea and melamine resins; good corrosion xylene resistance & good air-dry properties; versatile resin easily formulated into bake coatings that meet fast production finishing schedules

Duramac TOFA 50 43 8.3 Xylene Z2–Z4 K–N @ 6 12 140 Designed to produce excellent baking finishes 207-1040 40% that exhibit outstanding hardness properties; xylene good chemical and solvent resistance

Duramac Coconut 70 62.1 8.7 i-BuOH, Z1–Z3 2 7 175 Designed for use in high quality wood 207-1109 toluene, conversion varnish; low color; can be used as xylene a plasticizer for nitro-cellulose lacquers; can be cured with isocyanate crosslinkers

Duramac Coconut 70 63.8 9.1 SC-100, EB Y–Z2 2 8 175 Designed for use in high quality wood 207-1110 conversion varnish; low color; can be used as a plasticizer for nitro-cellulose lacquers; can be cured with isocyanate crosslinkers

Duramac Coconut 70 63.2 8.9 n-BuAc Z1–Z3 Q–T @ 3 8 175 Higher solids, high quality non-yellowing 207-1205 60% baking enamels and plasticizers for n-BuAc nitrocellulose lacquers Duramac TOFA 70 62.6 8.7 EP, EtOH T–V C–G @ 7 10 Properties include fast curing & low yellowing 207-1985 55% EP with excellent durability and higher throughput High Solids

Duramac HS TOFA 88 87.1 9.3 Xylene Z5.5–Z6.5 I–M @ 7 10 152 Workhorse product designed for baking 57-5742 70% in systems with good cost/performance balance; xylene can be formulated to 2.8 lbs/gal (340 g/L) VOC

Duramac HS Coconut 75 67.3 8.9 MAK Z3–Z5 3 10 175 HAPs-free resin designed for use in high 207-1102 quality, non-yellowing baking enamels Duramac HS Fatty 80 75.6 8.9 n-BuAc, X–Z K–M @ 7 3 81 Designed for use with isocyanate crosslinkers; 207-2012 acid MAK 70% in excellent exterior durability; high equivalent blend n-BuAc weight means low ISO demand (economy); also melamine compatible Duramac HS TOFA 78 77 9.1 n-Butyl T-V 7 12 A compliant TOFA-based alkyd cut in a HAPs- 207-2706 acetate free solvent designed for baking systems; exhibits good gloss retention and has excellent balance of corrosion and humidity resistance

PCCR USA, Inc. 17 June 2013 Specialty Alkyds

Chlorine-Modiﬁed High Solids % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) Features and Benefits Duramac HS Safflower 75 67.7 9.4 SC-100 W-Y H-K 7 6 Alkyd resin for interior fire-retardant coatings; can be 57-5819 formulated to meet Government Specification DOD-E- 24607A Chlorinated Alkyd Interior Semigloss Enamel; good dry and high flash point

Latex Modiﬁers High Solids Long Oil % % Wt/ Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity (max.) (max.) Features and Benefits

Duramac HS Soya 99 99.0 8.4 Xylene Z1–Z3 10 5 Very long oil alkyd modifier to improve adhesion to chalky 55-5501 substrates for exterior latex paints and stains; also used in oil-based exterior paints and stains

Duramac HS TOFA 100 100 8.2 None Z–Z3 8 8 Modifier for adhesion improvement in latex paints; good 55-5543 color retention for exterior solvent-based paints and stains

Duramac HS Soya 100 100 8.5 None Z–Z2 8 12 Long oil alkyd used as adhesion promoter for exterior latex 201-2516 house paints; can be used as blending resin to increase solids and lower the VOC of conventional alkyd coatings; high gloss potential; good color retention

Duramac HS Linseed 100 99.3 8.3 None W–Y 10 10 Modifier to improve adhesion to chalky substrates for 211-1033 architectural paints; also used in oil-based exterior paints and stains; good compatibility with other long oil and mineral spirits for solvent-borne stains

Oxazoline-Modiﬁed Alkyd Conventional Vinyl Ester % % Wt/ Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity (max.) (max.) Features and Benefits Chemacoil Linseed 99 100 7.8 None G–I 10 10 Unique 100% solids oxazoline resin with excellent pigment 240-2101 wetting characteristics, good flexibility, adhesion and mildew resistance; for use as a stain vehicle or modifier for latex paints

PCCR USA, Inc. 18 June 2013 Alkyds

Water Reducible Chain-Stopped % % Wt/ Reduced Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) Features and Benefits

DuramacWR Fatty acid 75 69.1 8.8 s-BuOH, Z6–Z6.5 U0.5–W0.5 7 43 Workhorse product with excellent gloss, salt spray and 74-7474 blend EB @ 60% humidity resistance balanced with good dry rate for air s-BuOH and force-dry industrial DTM applications; compatible with selected latexes; can be formulated for good dip tank stability

Duramac WR Fatty acid 70 63.8 8.7 s-BuOH, Z4.5–Z6 8 38 Superior gloss and gloss retention with corrosion and 74-7495 blend EB water resistance, very good dry rate for air and force- dry industrial applications; compatible with selected latexes; can be formulated for good dip tank stability

Duramac WR Fatty acid 75 69.1 8.8 PnP, Z6–Z6.5 8 43 Excellent gloss, salt spray and humidity resistance; 207-3074 blend s-BuOH good dry times

Duramac WR TOFA 75 70.4 9.0 EB Z5–Z7 8 44 Low VOC, good gloss, economical WR alkyd with good 207-3119 balance of cost versus performance

Duramac WR Fatty acid 70 64.3 8.9 EB Z4–Z6 8 38 Straight EB cut of 74-7495 with improved open time 207-3497 blend and higher flash point

Duramac WR TOFA 70 64.0 8.7 EB, Z5–Z7 8 38 Good cost performance balance for air-dry, force-dry or 207-3738 s-BuOH bake systems; excellent corrosion resistance, initial gloss with good package stability Epoxy Ester

RezimacWR Fatty acid 70 66.6 8.4 EB Z5.5–Z6.5 8 69 Air-dry or bake resin with outstanding hardness, 73-7331 blend corrosion, chemical and humidity resistance for fast dry primers and maintenance coatings that require adhesion to difficult substrates including plastic; versatile in topcoat acceptance, can be a universal primer resin Phenolic-Modiﬁed

Duramac WR Fatty acid 75 69.6 8.7 EB, Z6–Z6.5 8 44 Phenolic modification provides good corrosion 74-7478 blend s-BuOH resistance for air and force-dry primers with a minimal recoat window; resists lifting Polyoleﬁn

Rezimac WR None 100 100.0 7.8 None Z–Z3 4 30 Modified polyolefin with excellent package stability, 73-7358 application and drying properties, and early water resistance for penetrating stains on vertical wood surfaces; outstanding stability Short Oil

Duramac WR TOFA 70 64.9 8.8 EB Z4–Z6 W–Y @ 8 53 Designed for baking enamels; provides good hardness, 74-7451 60% EB flexibility and durability; diptank stable; formulations based on this resin are comparable to solvent-based bake formulations for general industrial applications

PCCR USA, Inc. 19 June 2013 Alkyds

Water Reducible Silicone-Modiﬁed % % Wt/ Color Acid # Product Name Oil Type NVM NVV Gal Solvents Viscosity (max.) (max.) Features and Benefits

Rezimac WR Fatty acid 75 70.0 9.0 EB Z5–Z6.5 6 48 Silicone-modified alkyd with high gloss, good gloss and color 74-7435 blend retention with outstanding early water resistance, fast dry and high application solids; ideal for air-dry coatings requiring long- term exterior exposure; compatible with selected latexes Stain Vehicle

Duramac WR Linseed, 98 97.6 8.6 Xylene Z4–Z5 14 90 Solvent-based stain performance in a water reducible polymer, 216-3610 tung (trace) with excellent penetration and performance for interior and exterior wood and other porous substrates; excellent package stability

PCCR USA, Inc. 20 June 2013 Latex

All Acrylic SelfSelf----CrosslinkingCrosslinking Styrene Acrylic Vinyl Acrylic

interior & exterior architectural paint industrial primers direct-to-metal topcoats porch & deck enamels

Latex

All Acrylic % % Wet Dry Particle Size Tg (°C) MFFT Product Name NVM NVV lbs/gal lbs/gal pH (nm) (calculated) (°C) Features and Benefits Aquamac 450 50.0 47.2 8.80 9.27 8.5 195 10 18 Excellent abrasion resistance and adhesion; good hardness and exterior durability Aquamac 510 50.0 47.1 8.82 9.31 8.5 130 -5 1 A low Tg latex capable of near zero VOC ,at coatings; good exterior durability and adhesion Aquamac 720 45.0 41.3 8.90 9.60 9.0 160 40 30 Aquamac 720 is suitable for use in primer formulations with excellent thin .lm corrosion resistance and compatibility with reactive pigments; can also achieve high gloss for interior applications; has good adhesion to galvanized steel

Self-Crosslinking % % Wet Dry Particle Size Tg (°C) MFFT Product Name NVM NVV lbs/gal lbs/gal pH (nm) (calculated) (°C) Features and Benefits Aquamac 490 46.0 44.3 8.60 8.90 7.5 100 13 12 A styrene acrylic capable of formulating below 100 g/L VOC for use in architectural, DTM and light-duty industrial coatings; coating formulations using Aquamac 490 exhibit excellent block resistance, high gloss and good adhesion to a wide variety of substrates Aquamac 575 45.5 43.1 8.70 9.14 8.5 95 -5 -2 APE-free, all acrylic latex capable of achieving 50 g/L VOC compliant formulations; coatings exhibit excellent adhesion to a variety of substrates, superior block resistance, and very good chemical resistance; performs well in concrete and architectural coatings Aquamac 780 45.0 41.9 8.80 9.37 10.0 155 39 36 Versatile styrene acrylic latex designed for architectural and light-duty maintenance applications with good adhesion to variety of substrates; can be formulated to 100 g/L VOC with excellent solvent, chemical and stain resistance, high gloss and good corrosion resistance

PCCR USA, Inc. 22 June 2013 Latex

Styrene Acrylic % % Wet Dry Particle Size Tg (°C) MFFT Product Name NVM NVV lbs/gal lbs/gal pH (nm) (calculated) (°C) Features and Benefits Aquamac 260 55.0 52.0 8.90 9.37 8.5 215 5 16 A latex polymer developed for highly pigmented systems, such as non-speci.cation traf.c paints, marking paints and concrete/masonry coatings; dries quickly Aquamac 300 48.0 46.3 8.60 8.89 8.5 115 25 25 Outstanding stain and tannin block resistance; 150 g/L VOC capable Aquamac 440 45.0 43.3 8.60 8.93 7.5 100 23 32 Workhorse product exhibiting outstanding all-around performance including block resistance, corrosion resistance, good adhesion and gloss development; can be formulated to 150 g/L VOC Aquamac 477 40.0 37.3 8.70 9.26 8.0 60 30 46 Small particle size latex with excellent clarity, hardness and mar resistance; also compatible with polyurethane dispersions (PUD’s) Aquamac 480 46.0 43.6 8.70 9.13 8.0 115 -5 -5 Designed for architectural coatings, this latex can achieve zero VOC without using plasticizers; exhibits excellent adhesion to glossy alkyd and good block resistance Aquamac 541 45.0 43.9 8.50 8.71 8.5 115 -10 -3 Can be formulated to 50 g/L VOC for stain block primer with the use of ZnO; formulated coatings exhibit excellent tannin stain blocking and very good ink stain block properties Aquamac 550 45.0 42.6 8.70 9.15 8.5 105 58 58 Designed for concrete and masonry sealers with superior early water and blush resistance; passes hydrolytic pressure test TTP-1141A, par.4.3.8; excellent adhesion to masonry and prevents ef,orescence Aquamac 570 45.0 43.3 8.60 8.93 8.5 95 32 36 APE-free resin designed for concrete waterproofers, has great adhesion to concrete and excellent blush resistance; can be formulated to 100 g/L VOC; passes hydrolytic pressure test TTP-1141A, par.4.3.8 Aquamac 700 45.0 42.6 8.70 9.15 8.5 115 58 58 High Tg latex with good corrosion and weathering resistance; produces hard, tough .lms with high gloss Aquamac 705 50.0 47.8 8.70 9.07 8.5 115 19 32 Workhorse latex for industrial maintenance coatings; capable of achieving 100 g/L VOC with outstanding corrosion resistance, excellent weathering and early water resistance; good ,exibility and superior gloss Aquamac 737 47.5 46.4 8.50 8.69 8.5 120 3 -2 APE-free resin designed for industrial maintenance coatings at 50 g/L VOC or lower; has excellent corrosion resistance and good early water and block resistance Aquamac 740 47.5 45.5 8.65 9.00 8.5 110 40 62 Latex for DTM topcoat and primer coatings with high gloss and good corrosion and water resistance

Vinyl Acrylic % % Wet Dry Particle Size Tg (°C) MFFT Product Name NVM NVV lbs/gal lbs/gal pH (nm) (calculated) (°C) Features and Benefits Aquamac 580 56.5 52.5 9.10 9.69 4.7 295 9 9 APE-free latex with excellent scrub resistance and gloss development; good block resistance, thickening ef.ciency and formulation latitude for interior architectural coatings

PCCR USA, Inc. 23 June 2013 Liquid Polyesters

Conventional High Solids Polyester Dispersions Water Reducible

aerospace topcoats super yacht coatings off-road & heavy equipment paints coil coatings metal ofﬁce furniture

Liquid Polyesters

Conventional % % Wt/ Reduced Color Acid # Product Name NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) OH # Eq. Wt. Features and Benefits Polymac 60 51.5 8.8 Xylene V–X D–G @ 8 10 85 660 Excellent balance of flexibility and hardness; has 66-6613 45% good chemical resistance with overbake resistance xylene

Polymac 70 61.1 8.8 MAK Z1–Z4 5 6 128 440 Excellent hardness and flexibility with glossy 66-6686 appearance and exterior durability

Polymac 65 58.7 9.5 PMA Z3–Z4 2 4 173 324 Good gloss and color retention and good chemical 220-1001 and abrasion resistance; compatible with a wide variety of resins

Polymac 65 57.5 9.1 SC-150, Z3–Z5 V–X @ 3 10 32 1753 Designed for coil coatings, can be formulated into 220-1926 xylene 55% in flexible baking enamels; excellent adhesion to SC-150 aluminum and steel

Polymac 65 58.6 8.9 Xylene Z1–Z2 D–F @ 3 10 29 1934 Designed for coil coatings, good chemical 220-1935 50% resistance and hardness; excellent overbake xylene resistance and flexibility

Polymac 65 58.6 8.9 Arom Z–Z2 3 6 35 1603 Designed for coil coatings, good flexibility, gloss, 220-1959 150 flow and leveling, and chemical resistance; has good durability with excellent overbake resistance

High Solids % % Wt/ Reduced Color Acid # Product Name NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) OH # Eq. Wt. Features and Benefits

PolymacHS 88 86.8 9.8 Xylene, Z3–Z5 K–N @ 4 10 180 310 Good economics, hardness and flexibility for 57-5761 PMA 75% general industrial applications; can be formulated xylene into FDA 175.300 approvable coatings

Polymac HS 100 100.0 9.7 Z5–Z6 2 5 250 224 Lowest VOC possible (1.5 lbs/gal); excellent 57-5763 hardness; typical analysis will show 95% NVM due to glycol loss

Polymac HS 83 82.7 9.3 PMA Z4–Z6 B–D @ 3 10 178 315 Workhorse polyester with excellent chemical 57-5776 60% resistance, durability, hardness and good flexibility xylene for industrial bake and 2K applications; can be formulated into FDA 175.300 approvable coatings

Polymac HS 95 93.5 8.7 MIBK Z3–Z5 2 6 245 230 Good combination of hardness, flexibility and 57-5782 chemical resistance for industrial bake applications

Polymac HS 83 82.3 9.3 EEP Z3–Z5 A–C @ 3 10 153 370 Excellent chemical resistance, weathering and 57-5789 60% flexibility, and good hardness for industrial bake and xylene 2K applications; can be formulated to meet VOC requirements of 2.8 lbs/gal (340 g/L)

Polymac HS 75 69.3 9.0 n-BuAc Z1–Z3 C–F @ 2 9 280 200 Aliphatic polyester with superior weatherability and 220-2010 60% MAK excellent chemical resistance, including Skydrol; also used as a blending resin for acrylics and polyesters; can be formulated to meet VOC requirements of 2.8 lbs/gal (340 g/L)

Polymac HS 75 67.3 8.9 MAK Z1.5–Z3.5 2 5 280 200 Coatings exhibit superior weatherability, durability 220-2015 and good balance of film properties, including Skydrol resistance; excellent blending resin for acrylics

Polymac HS 97 96.4 8.8 n-BuAc Z5–Z7 5 10 206 275 Good hardness and chemical resistance for 220-2882 industrial bake applications

PCCR USA, Inc. 25 June 2013 Liquid Polyesters

Polyester Dispersions % Wt/ Particle Size Color Acid # Product Name NVM Gal pH Viscosity (nm) (max.) (max.) OH # Features and Benefits Hydreau 40 9.0 - - - 2 39 30 High Tg polyester dispersion for melamine or benzoguanamine 290-3320 baking enamels; excellent toughness, hardness, chemical resistance and durability Hydreau 45 9.0 7.6 - 75 2 25 56 Phenolic-modified polyester dispersion for food can coatings; 290-3321 excellent balance of properties Hydreau 30 8.8 7.5 1000– - - 60 164 Surfactant-free polyester dispersion for 2K coating systems with 290-4156 3000 cP low isocyanate demand; can achieve near zero VOC; excellent gloss development and good film hardness

Hydreau 44 9.1 7.5 - 20 2 47 72 Surfactant-free polyester dispersion for baking systems; 290-4254 excellent adhesion to metal, flexibility and chemical resistance

Water Reducible % % Wt/ Color Acid # Product Name NVM NVV Gal Solvents Viscosity (max.) (max.) OH # Eq. Wt. Features and Benefits

Polymac WR 75 67.9 8.9 s-BuOH, Z3–Z5 3 60 64 876 Excellent color retention, hardness and flexibility balanced with 72-7203 EB economics make this a workhorse for industrial baking enamels

Polymac WR 75 67.9 8.9 PnP, Z4–Z6.5 5 60 67 876 Excellent color and gloss retention, good adhesion and hardness 220-3203 s-BuOH

Polymac WR 75 69.3 9.2 EB Z4–Z6 3 60 67 876 Designed for use in industrial enamels; HAPs-free; excellent 220-3204 exterior durability

PCCR USA, Inc. 26 June 2013 Powder

Resins Curatives

machinery & equipment exterior light fixtures metal office furniture coil & extrusion plastic, glass & wood finishes

Powder

Carboxyl-Terminated Resins for Exterior Use: T.G.I.C. Cured Dynamic Resin/ Product Name Acid Value Viscosity (cP) Tg ( °°°C) Baking Schedules Curative Ratio Features and Benefits Polymac 5040 30–36 6200–7200 68 20 min @ 180 °C/356 °F 93/7 High Tg, catalyst-free, good (ow, excellent anti-yellowing 10 min @ 204 °C/400 °F capability

Polymac 5050 32–38 3000–3800 59 20 min @ 160 °C/320 °F 95/5 Excellent (exibility, 0T bend capability with 93/7 TGIC; 10 min @ 180 °C/356 °F good exterior durability, low gloss with Casamid 2228

Polymac 5160 32–37 3000–3800 59 20 min @ 180 °C/356 °F 93/7 Excellent (ow, good (exibility and exterior durability; can 10 min @ 204 °C/400 °F also be cured with Primid at 95/5; cures with GMA acrylics at 74/26

Polymac 5190 31–37 2600–3600 51 10 min @ 150 °C/302 °F 93/7 Low temperature cure, good hardness, excellent solvent 25 min @ 130 °C/266 °F resistance

Polymac 5650 30–35 3700–5600 61 20 min @ 180 °C/356 °F 93/7 Catalyst-free, excellent (ow, good exterior durability; 10 min @ 204 °C/400 °F designed for “wet-look” clears Polymac 5900 46–52 3300–4300 67 10 min @ 204 °C/400 °F 90/10 Good solvent resistance and hardness

Carboxyl-Terminated Resin for Exterior Use: Primid Cured Dynamic Resin/ Product Name Acid Value Viscosity (cP) Tg ( °°°C) Baking Schedules Curative Ratio Features and Benefits Polymac 5050 32–38 3000–3800 59 20 min @ 160 °C/320 °F 95/5 Excellent (exibility, 0T bend capability with 93/7 TGIC; 10 min @ 180 °C/356 °F good exterior durability, low gloss with Casamid 2228

Carboxyl-Terminated Resin for Exterior Use: Polyglycidyl Ester Cured Dynamic Resin/ Product Name Acid Value Viscosity (cP) Tg ( °°°C) Baking Schedules Curative Ratio Features and Benefits Polymac 5160 32–37 3000–3800 59 15 min @ 180 °C/356 °F 93/7 Excellent (ow, good (exibility, and good exterior 10 min @ 204 °C/400 °F durability; can also be cured with Primid at 95/5; cures with GMA acrylics at 74/26

Carboxyl-Terminated Resins for Interior Use: Hybrid Polyesters Dynamic Resin/ Product Name Acid Value Viscosity (cP) Tg ( °°°C) Baking Schedules Curative Ratio Features and Benefits Polymac 2090 55–65 2500–3700 52 20 min @ 180 °C/356 °F 60/40 Excellent (ow; good chemical resistance 10 min @ 204 °C/400 °F

Polymac 2360 66–76 2000–3000 52 20 min @ 150 °C/302 °F 50/50 Very high reactivity; good (ow, good hardness 10 min @ 160 °C/320 °F

Polymac 2510 85–100 3100–5600 72 25 min @ 180 °C/356 °F 45/55 Uncatalyzed polyester; good (ow, excellent shelf stability 15 min @ 204 °C/400 °F 50/50 60/40

NOTE: Bake schedules are suggested times and must be determined by the user. Viscosity – ICI Cone and Plate; mPa·s @ 200°C

PCCR USA, Inc. 28 June 2013 Powder

Hydroxyl-Terminated Resins for Exterior Use: Primid Cured Hydroxyl Dynamic Acid Value Resin/ Product Name Value* Viscosity (cP) Tg ( °°°C) (max.) Baking Schedules Curative Ratio** Features and Benefits Polymac 3000 50 3700–5600 57 15 10 min @ 204 °C/400 °F 80/20 Excellent chemical resistance; superior hardness and impact resistance Polymac 3020 110 3100–4300 55 9 10 min @ 204 °C/400 °F 63/37 Excellent stain, detergent and solvent resistance Polymac 3110 290 2100–3000 48 11 15 min @ 204 °C/400 °F 50/50 Designed to be extruded with Polymac 3220 for low gloss polyurethane coatings; can be melt-mixed with other OH polyesters to enhance hardness and chemical resistance Polymac 3160 40 3700–4900 54 15 10 min @ 204 °C/400 °F 82/18 Excellent (ow, very good physical properties Polymac 3220 40 3700–5600 58 4 10 min @ 204 °C/400 °F 82/18 Provides low gloss when combined with Polymac 3110

*Hydroxyl values are approximate. **Utilizing a blocked isocyanate with an equivalent weight of 300 g/eq.

Super-Durable Resin for Extended Exterior Exposure Dynamic Resin/ Product Name Acid Value Viscosity (cP) Tg ( °°°C) Baking Schedules Curative Ratio Features and Benefits Polymac 6140 30–36 3400–4400 63 15 min @ 204 °C/400 °F 93/7 Cures with TGIC at 93/7; good general purpose resin; requires 5-7% isocyanate curative for full physical properties

Polymeric Isocyanate Curatives Equivalent % NCO Resin/ Product Name Weight for Cure Tg ( °°°C) Baking Schedules Curative Ratio Features and Benefits Alcure 4400 302 14 58 10 min @ 204 °C/400 °F 82/18 Polymeric aliphatic isocyanate; excellent (ow, good overall performance Alcure 4402 280 15 58 10 min @ 204 °C/400 °F 83/17 Higher reactivity than Alcure 4400; equivalent performance to higher trimer content Alcure 4430 333 12.6 55 20 min @ 180 °C/356 °F 81/19 Very good chemical resistance; polymeric aliphatic isocyanate; lower temperature cure than Alcure 4400 Alcure 4431 333 12.6 55 20 min @ 180 °C/356 °F 81/19 Reduced yellowing and improved UV resistance Alcure 4450 275 15.3 64 20 min @ 160 °C/320 °F 84/16 Polymeric aromatic isocyanate for low temperature cure; considerable savings over aliphatic curatives; not recommended for long-term UV exposure; high Tg Alcure 4470 212 19.8 58 30 min @ 160 °C/320 °F 87/13 Polymeric aliphatic isocyanate; lower temperature cure than Alcure 4400; ε-caprolactam-free; triazole-blocked

NOTE: Bake schedules are suggested times and must be determined by the user. Viscosity – ICI Cone and Plate; mPa·s @ 200°C

PCCR USA, Inc. 29 June 2013 Solution Acrylics

Conventional High Solids Water Reducible

 2K industrial maintenance  general metal baking enamels  rigid packaging  transportation—truck, bus & RV 

Solution Acrylics

Conventional Thermoplastic % % Wt/ Reduced Color Acid # Eq. Tg Product Name NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) OH # Wt. (°C) Features and Benefits Acrylamac 50 44.0 8.1 Toluene W–Z 1 4 50 Fast dry with good color and gloss retention for use as 16-1066 a sole film former or modifying resin; can be formulated into FDA approvable coatings Acrylamac 50 32.0 7.2 Isopar G W–Y 1 59 Designed for low odor, stain-blocking primer for 350 231-1195 g/L VOC; excellent ink stain block and good sag resistance

Acrylamac 50 44.5 8.1 iso- Z2–Z5 1 4 50 Exhibits fast dry times and excellent gloss; has good 231-1266 BuAc color retention and good compatibility with other resins; excellent pigment dispersion vehicle Thermoset

Acrylamac 60 54.3 8.6 Toluene Z1–Z4 1 15 87 645 56 Hydroxyl-functional polyol with outstanding 17-1100 weatherability, hardness, gloss and color retention for durable, long-lasting coatings

Acrylamac 65 61.5 8.7 PMA, Z3–Z5 C–E @ 2 20 80 701 23 Designed for two-component, acrylic urethane 232-1321 n-BuOH 40% coatings; good early water resistance, good PMA chemical resistance and good weatherability

Acrylamac 70 64.9 8.6 n-BuAc Z3–Z5 D–F @ 2 16 154 365 24 Hydroxyl-functional resin for coatings requiring 232-1375 50% weatherability and chemical resistance with n-BuAc excellent water and humidity resistance

Acrylamac 60 53.2 8.4 Xylene Z–Z3 1 15 87 645 56 Hydroxyl-functional polyol with excellent hardness, 232-1700 gloss and color retention; excellent appearance and durability

Acrylamac 60 53.7 8.5 n-BuAc Z1–Z3 1 15 87 645 56 Excellent gloss and color retention and excellent 232-1711 protective properties; excellent appearance and outstanding exterior durability

PCCR USA, Inc. 31 June 2013 Solution Acrylics

Conventional Thermoset Carboxyl-Functional % % Wt/ Color Acid # Tg Product Name NVM NVV Gal Solvents Viscosity (max.) (max.) Eq. Wt. (°C) Features and Benefits

Acrylamac 55 49.3 8.4 EB X–Z2 3 65 935 5 Can be formulated into FDA approvable coatings for 232-1128 direct food contact under 21 CFR 175.300; excellent chemical resistance, excellent balance of hardness and flexibility, excellent metal protection properties

Acrylamac 41 36.4 8.0 Arom Z1–Z3 2 40 1476 25 Designed to crosslink with epoxy resins for metal 232-1176 150, EB applications; high gloss, excellent color and gloss retention, excellent hardness, abrasion resistance

Acrylamac 56 49.9 8.4 Arom 9000– 1 66 905 23 Soft, flexible acrylic resin that can be formulated into 232-1188 150, EB 14500 cP FDA approvable coatings for direct food contact under 21 CFR 175.300; excellent adhesion, high gloss, excellent chemical resistance Acrylamac 56 49.9 8.5 Arom 4300– 1 66 905 3 Soft, flexible acrylic resin that can be formulated into 232-1189 150, EB 6300 cP FDA approvable coatings for direct food contact under 21 CFR 175.300; excellent adhesion, high gloss, excellent chemical resistance

PCCR USA, Inc. 32 June 2013 Solution Acrylics

High Solids Thermoset % % Wt/ Reduced Color Acid # Eq. Tg Product Name NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) OH # Wt. (°C) Features and Benefits

Acrylamac HS 80 76.2 8.7 n-BuAc Z3–Z5 C–E @ 2 8 70 800 19 Hydroxyl-functional resin with low isocyanate 232-2314 60% demand designed for use in high performance n-BuAc industrial maintenance topcoat applications; can also be formulated to 340 g/L VOC

Acrylamac HS 80 76.2 8.8 t-BuAc, Z5–Z7 2 8 70 800 19 t-Butyl acetate version of 232-2314 232-2315 n-BuAc (trace)

Acrylamac HS 90 88.3 8.6 n-BuAc Z3–Z5 D–H @ 3 8 244 230 20 Very high solids polyol producing hard, durable 232-2328 70% and chemically resistant finishes; useful as sole n-BuAc resin or as a modifier in applications requiring excellent abrasion resistance in 250 g/L VOC formulations

Acrylamac HS 80 76.3 8.7 n-BuAc, Z3–Z5 2 7 68 825 22 Hydroxyl-functional resin with low isocyanate 232-2350 EEP demand, superior water resistance and gloss (trace) retention making it an excellent choice for maintenance and marine topcoat applications in 340 g/L VOC formulations

Acrylamac HS 80 74.6 8.5 MAK Z1–Z4 3 8 110 508 8 Designed for low VOC compliant coatings, this 232-2980 resin has an excellent balance of film properties and is a very good choice for primed and unprimed substrates

Water Reducible Thermoset % % Wt/ Reduced Color Acid # Eq. Tg Product Name NVM NVV Gal Solvents Viscosity Viscosity (max.) (max.) OH # Wt. (°C) Features and Benefits

Acrylamac WR 75 69.3 8.6 n-BuOH, Z5–Z7 3 110 110 510 2 Good stability, chemical, stain and corrosion 17-7241 EP resistance for industrial electrocoating or dip tanks; can be formulated into 2K systems

Acrylamac WR 71 66.4 8.7 EB Z6–Z9 F–K @ 1 85 59 951 27 Versatile resin for spray, dip or flow coatings that 232-3312 40% EB are baked

PCCR USA, Inc. 33 June 2013 UV Curables

UV Curables

designed for sandable, ﬂexible wood coatings and high-end industrial & metal applications

UV Curables

UV Curable Resins % Reactive Wt/ Color Acid # Product Name Oil Type % Oligomer Diluent Gal Viscosity (max.) (max.) Features and Benefits

Lumicure Aliphatic 75 25 HDODA 9.0 Z4.5 –Z5.5 2 0.1 UV/EB curable designed for high end applications with good 15-1516 urethane hardness, .exibility and chemical resistance acrylate Lumicure Polyester 75 25 Styrene 9.6 2400–2800 5 30 UV/EB or peroxide curable with medium reactivity; designed 15-1560 cP for use as a sandable, .exible wood coating Lumicure Polyester 76 24 VT 9.5 2400–2700 5 22 HAPs-free, UV/EB or peroxide curable with medium 223-6517 cP reactivity; designed for use as a sandable, .exible wood coating

PCCR USA, Inc. 35 June 2013 Reference

Aquamac Quick Reference Guide HAPSHAPS----FreeFree Product List

Quick Reference Guide for 2K Systems Coating Calculations & Glossary

PCCR Resins with tt----ButylButyl Acetate Coating Resin Distributors

Acrylamac™ Alcure™ Aquamac™ Archemis® Carbamac™ Chemacoil™ Duramac™ Hydreau® Lumicure™ Macopol™ Polymac™ Rezimac™ Aquamac Quick Reference Guide

C o n P c W L r r S i o e m t a w t a e t e i e A n V A C r r r s s p O r c o r c a a C h a o h i n S n o A t t ( i i d p d 5 t r e n I ﬁ e c c M e n 0 g I F U W c h t c s M l n g g t i u & o i o u t d a / e r a o o a L r a & M e l a c n r t d n l d r y d o l t N M C c u T F r E S o o P S r o o i l x P a a r n o a n e p i e t a r t t m i a w e l - D i c s F F l m in i l r e T o n e h e e io l l g g e r a a r M e a r r ) r t t s r t s s s s s

Aquamac 260

Aquamac 300

Aquamac 440

Aquamac 450

Aquamac 477

Aquamac 480

Aquamac 490

Aquamac 510

Aquamac 541

Aquamac 550

Aquamac 570

Aquamac 575

Aquamac 580

Aquamac 700

Aquamac 705

Aquamac 720

Aquamac 737

Aquamac 740

Aquamac 780

= Suggested use = May be suitable = Not recommended

PCCR USA, Inc. 37 June 2013 Aquamac Quick Reference Guide

Wet Dry NVM NVV* Particle Tg* MFFT Grind Polymer Density Density* pH (%) (%) Size (nm) (°C) (°C) Vehicle** (#/gal) (#/gal)

Aquamac 260 Styrene acrylic 55.0 52.0 8.90 9.37 8.5 215 5 16 No

Aquamac 300 Styrene acrylic 48.0 46.3 8.60 8.89 8.5 115 25 25 Yes

Aquamac 440 Styrene acrylic 45.0 43.3 8.60 8.93 7.5 100 23 32 Yes

Aquamac 450 All acrylic 50.0 47.2 8.80 9.27 8.5 195 10 18 No

Aquamac 477 Styrene acrylic 40.0 37.3 8.70 9.26 8.0 60 30 46 No

Aquamac 480 Styrene acrylic 46.0 43.6 8.70 9.13 8.0 115 -5 -5 n/a

Aquamac 490 Styrene acrylic 46.0 44.3 8.60 8.90 7.5 100 13 12 Yes

Aquamac 510 All acrylic 50.0 47.1 8.82 9.31 8.5 130 -5 1 No

Aquamac 541 Styrene acrylic 45.0 43.9 8.50 8.71 8.5 115 -10 -3 No

Aquamac 550 Styrene acrylic 45.0 42.6 8.70 9.15 8.5 105 58 58 n/a

Aquamac 570 Styrene acrylic 45.0 43.3 8.60 8.93 8.5 95 32 36 Yes

Aquamac 575 All acrylic 45.5 43.1 8.70 9.14 8.5 95 -5 -2 Yes

Aquamac 580 Vinyl acrylic 56.5 52.5 9.10 9.69 4.7 295 9 9 No

Aquamac 700 Styrene acrylic 45.0 42.6 8.70 9.15 8.5 115 58 58 Yes

Aquamac 705 Styrene acrylic 50.0 47.8 8.70 9.07 8.5 115 19 32 No

Aquamac 720 All acrylic 45.0 41.3 8.90 9.60 9.0 160 40 30 No

Aquamac 737 Styrene acrylic 47.5 46.4 8.50 8.69 8.5 120 3 -2 No

Aquamac 740 Styrene acrylic 47.5 45.5 8.65 9.00 8.5 110 40 62 Yes

Aquamac 780 Styrene acrylic 45.0 41.9 8.80 9.37 10.0 155 39 36 Yes

The values listed in this chart are typical properties and should NOT be considered speci4cations.

*Calculated values **Contact a Technical Service Representative for details

PCCR USA, Inc. 38 June 2013 Quick Reference Guide for 2K Systems Alkyds—Polyesters—Solution Acrylics

ALKYDS

Acid NVM NVV* WPG Value OH Product (%) (%) (#/gal) Solvents Viscosity (max.) Eq. Wt. Features and Beneﬁts Duramac HS 80 75.6 8.90 n-BuAc, X-Z 3 691 HAPs-free, high solids alkyd with low isocyanate demand; 207-2012 MAK designed for economical systems; can be used for DTM (direct-to-metal)

POLYESTERS

Acid NVM NVV* WPG Value OH Product (%) (%) (#/gal) Solvents Viscosity (max.) Eq. Wt. Features and Beneﬁts

Polymac HS 83 82.7 9.30 PMA Z4-Z6 10 315 HAPs-free, high solids workhorse resin with good hardness/ 57-5776 flexibility and excellent durability; can be formulated into FDA approvable coatings

Polymac HS 83 82.3 9.30 EEP Z3-Z5 10 370 HAPs-free, high solids, low viscosity polyester with excellent 57-5789 durability and flexibility

Polymac HS 75 69.3 9.04 n-BuAc Z1-Z3 9 200 HAPs-free, high solids polyester with superior durability and 220-2010 chemical resistance, including Skydrol

Polymac 70 61.1 8.75 MAK Z1-Z4 6 440 HAPs-free, conventional solids polyester with premium 66-6686 performance

Polymac 65 58.7 9.53 PMA Z3-Z4 4 324 HAPs-free, conventional solids polyester with excellent 220-1001 chemical resistance; compatible with acrylics and other polyesters

SOLUTION ACRYLICS

Acid NVM NVV* WPG Value Tg* OH Product (%) (%) (#/gal) Solvents Viscosity (max.) (C) Eq. Wt. Features and Beneﬁts

Acrylamac HS 90 88.3 8.61 n-BuAc Z3-Z5 8 20 230 HAPs-free, very high solids with excellent hardness, mar/abrasion 232-2328 resistance, exterior durability and chemical resistance; can be used as a sole polyol or as a modifier

Acrylamac HS 80 76.3 8.72 n-BuAc Z3-Z5 7 22 825 HAPs-free, high solids, low isocyanate demand; superior water 232-2350 resistance and gloss retention for OEM, industrial maintenance and marine applications

Acrylamac HS 80 76.2 8.72 n-BuAc Z3-Z5 8 19 800 HAPs-free, high solids, low isocyanate demand for economical, 232-2314 high performance OEM and industrial maintenance topcoat applications

Acrylamac 70 64.9 8.61 n-BuAc Z3-Z5 16 24 365 HAPs-free, conventional solids with exceptional durability and 232-1375 hardness; designed for use in industrial maintenance applications

Acrylamac 60 54.3 8.65 Toluene Z1-Z4 15 56 645 Conventional solids, outstanding durability, gloss and color 17-1100 retention; high Tg provides for fast dry-to-touch for automotive refinish and industrial maintenance applications

Acrylamac 60 53.7 8.50 n-BuAc Z1-Z3 15 56 645 n-BuAc version of Acrylamac 17-1100 232-1711

Acrylamac 60 53.2 8.45 Xylene Z-Z3 15 56 645 Xylene version of Acrylamac 17-1100 232-1700

*Calculated Values

PCCR USA, Inc. 39 June 2013 PCCR Resins with t-Butyl Acetate

Conventional Resin t-Butyl Acetate without Description of Conventional Resin Version t-Butyl Acetate

Conventional Thermoplastic Solution Acrylic: Tg = 50 °C; acid # = 4; 231-8066 Acrylamac 16-1066 NVM = 50% (NVM = 50%)

High Solids Thermoset Solution Acrylic: Hydroxyl-functional resin with low 232-2315 Acrylamac HS 232-2314 isocyanate demand; OH # = 70; acid # = 8; eq. wt. = 800; Tg = 19 °C; (NVM = 80%) NVM = 80%

Conventional Medium Oil Alkyd: Soya oil; OH # = 90; acid # = 10; 204-8117 Duramac 51-5117 NVM = 50% (NVM = 65%)

Conventional Short Oil Alkyd: Coconut oil; OH # = 175; acid # = 8; Duramac 52-5205 EX-621* NVM = 60%

Conventional Chain-Stopped Alkyd: TOFA oil; OH # = 112; acid # = 12; 207-1290 Duramac 52-5290 NVM = 50% (NVM = 55%)

Conventional Chain-Stopped Alkyd: Soya oil; OH # = 85; acid # = 12; 207-1407 Duramac 207-1405 NVM = 50% (NVM = 56%)

High Solids Chain-Stopped Short Oil Alkyd: TOFA oil; acid # = 10; Duramac HS 57-5720 EX-713* NVM = 75%

High Solids Short Oil Alkyd: Fatty acid blend; OH # = 81; acid # = 3; Duramac HS 207-2012 EX-624* NVM = 80%

Macopol HS 214-1158 High Solids Modiﬁed Copolymer Alkyd: Styrene acrylic-modi:ed; fatty acid EX-632* Macopol HS 214-2122 blend; acid # = 4; NVM = 70%

High Solids Modiﬁed Copolymer Alkyd: VT-modi:ed; soya oil; acid # = 10; Macopol HS 214-2105 EX-631* NVM = 80%

High Solids Modiﬁed Copolymer Alkyd: VT and styrene-modi:ed; soya and Macopol HS 214-2758 EX-633* linseed oil; acid # = 12; NVM = 75%

High Solids Liquid Polyester: OH # = 153; acid # = 10; eq. wt. = 370; Polymac HS 57-5789 EX-635* NVM = 83%

Rezimac 62-6260 Conventional Silicone-Modiﬁed Alkyd: Soya oil; acid # = 12; NVM = 60% EX-629*

Rezimac 213-1136 Conventional Silicone-Modiﬁed Alkyd: Linseed oil; acid # = 15; NVM = 50% EX-681*

Rezimac HS 57-5754 High Solids Phenolic-Modiﬁed Alkyd: TOFA oil; acid # 22; NVM = 75% EX-630*

*Experimental

PCCR USA, Inc. 40 June 2013 HAPs-Free Product List

HAPs-Free Products Product Name Chemistry Description Oil Type % NVM % NVV Solvents Acrylamac Acrylic Acrylic polyol 50 32.0 Isopar G 231-1195 Acrylamac Acrylic Acrylic polyol 50 44.5 Isobutyl acetate 231-1266 Acrylamac Acrylic Acrylic polyol 55 49.3 EB 232-1128 Acrylamac Acrylic 2K acrylic polyol 65 61.5 PM acetate, n-Butanol 232-1321 Acrylamac Acrylic 2K acrylic polyol 70 64.9 n-Butyl acetate, EEP (trace) 232-1375 Acrylamac Acrylic Acrylic polyol 60 53.7 n-Butyl acetate 232-1711 Acrylamac HS Acrylic High solids, 2K acrylic polyol 80 76.2 n-Butyl acetate, EEP (trace) 232-2314 Acrylamac HS Acrylic 2K acrylic polyol 80 76.2 t-Butyl acetate, n-butyl 232-2315 acetate (trace) Acrylamac HS Acrylic High solids, 2K acrylic polyol 90 88.3 n-Butyl acetate 232-2328 Acrylamac HS Acrylic High solids, 2K acrylic polyol 80 76.3 n-Butyl acetate, EEP (trace) 232-2350 Acrylamac WR Acrylic Water reducible, 2K acrylic polyol 75 69.3 n-Butanol, EP 17-7241 Acrylamac WR Acrylic Water reducible, 2K acrylic polyol 71 66.4 EB 232-3312 Chemacoil Alkyd Oxazoline-modified vinyl ester Linseed 99 100.0 None 240-2101 (no formaldehyde) Duramac Alkyd Long oil alkyd Soya 70 63.0 Mineral spirits 201-1170 Duramac Alkyd Short oil alkyd Coconut 70 63.2 n-Butyl acetate 207-1205 Duramac HS Alkyd High solids, short oil alkyd TOFA 78 77.0 n-Butyl acetate 207-2706 Duramac HS Alkyd High solids, chain-stopped short DCO, soya 75 67.3 MAK 207-2852 oil alkyd Duramac HS Alkyd High solids, long oil alkyd Linseed 100 99.3 None 211-1033 Duramac WR Alkyd Water reducible, short oil alkyd TOFA 70 64.9 EB 74-7451 Duramac WR Alkyd Water reducible, chain-stopped Fatty acid blend 75 69.1 sec-Butanol, EB 74-7474 alkyd Duramac WR Alkyd Water reducible, phenolic- Fatty acid blend 75 69.6 EB, sec-Butanol 74-7478 modified alkyd Duramac WR Alkyd Water reducible, chain-stopped Fatty acid blend 70 63.8 sec-Butanol, EB 74-7495 alkyd Duramac WR Alkyd Water reducible, chain-stopped Fatty acid blend 75 69.1 PnP, sec-Butanol 207-3074 alkyd Duramac WR Alkyd Water reducible, short oil alkyd TOFA 75 70.4 EB 207-3119 Duramac WR Alkyd Water reducible, chain-stopped Fatty acid blend 70 64.3 EB 207-3497 alkyd

PCCR USA, Inc. 41 June 2013 HAPs-Free Product List

HAPs-Free Products Product Name Chemistry Description Oil Type % NVM % NVV Solvents Duramac WR Alkyd Water reducible, chain-stopped TOFA 70 64.0 sec-Butanol, EB 207-3738 alkyd Hydreau Polyester 40 35.5 Water Polyester dispersion 290-3320 Hydreau Polyester Phenolic-modified polyester 45 Water 290-3321 dispersion Hydreau Polyester Polyester dispersion 30 26.2 Water 290-4156 Hydreau Polyester Polyester dispersion 44 Water 290-4254 Macopol HS Alkyd High solids, styrene acrylic- Fatty acid blend 70 65.0 n-Butyl acetate, MAK (trace) 214-1158 modified alkyd Macopol HS Alkyd High solids, VT and styrene- Soya, linseed 75 69.7 MPK 214-2758 modified alkyd Polymac Polyester 70 61.1 MAK High solids, polyester 66-6686 Polymac Polyester Polyester 65 58.7 PM acetate 220-1001 Polymac HS Polyester High solids polyester 83 82.7 PM acetate 57-5776 Polymac HS Polyester High solids polyester 83 82.3 EEP 57-5789 Polymac HS Polyester High solids polyester 75 69.3 n-Butyl acetate 220-2010 Polymac HS Polyester High solids polyester 75 67.3 MAK 220-2015 Polymac HS Polyester High solids polyester 97 96.4 n-Butyl acetate 220-2882 Polymac WR Polyester Water reducible polyester 75 67.9 sec-Butanol, EB 72-7203 Polymac WR Polyester Water reducible polyester 75 67.9 sec-Butanol, PnP 220-3203 Polymac WR Polyester Water reducible polyester 75 69.3 EB 220-3204 Rezimac HS Alkyd High solids, silicone-modified Soya 80 74.8 MAK, n-Butyl acetate 57-5747 alkyd Rezimac HS Alkyd High solids, epoxy ester alkyd Fatty acid blend 70 65.9 n-Butyl acetate 57-5839 (no xylene) Rezimac WR Alkyd Water reducible, epoxy ester Fatty acid blend 70 66.6 EB 73-7331 alkyd (no xylene, no styrene) Rezimac WR Alkyd Water reducible, modified 100 100.0 None 73-7358 polyolefin Rezimac WR Alkyd Water reducible, silicone- Fatty acid blend 75 70.0 EB 74-7435 modified alkyd

A word about “HAPs-free” products:

Based on the Clean Air Act’s Hazardous Air Pollutants list published at 42 U.S.C. § 7412(b) (as of September 2007) and PCCR USA’s review of product ingredients (relying on both theoretical calculations and information provided by our raw materials vendors), PCCR USA’s HAPs-free products are not expected to contain Hazardous Air Pollutants at greater than 0.0001%. Because Hazardous Air Pollutants are designated by Federal Law and the list of HAPs is subject to change by U.S. EPA, buyers should independently confirm that PCCR USA’s HAPs-free products do not contain regulated HAPs at the time of use. PCCR USA makes no warranty concerning HAPs content beyond the express content of this statement.

PCCR USA, Inc. 42 June 2013 Coating Calculations and Glossary

Coating Calculations

lbs pigment P/B = lbs of polymer solids

volume of pigment PVC = x 100 volume total solids in paint

lbs of total solids in paint NV Wt % = x 100 lbs of paint

gallons of solids in paint NV Vol % = x 100 gallons of paint

total lbs Density or Wt/Gal = total gallons

lbs organic solvent (non-exempt) VOC (lbs/gal) = gals paint - gals water - gals exempt solvent

VOC = (g/L) = VOC (lbs/gal x 119.84)

56,100 Equivalent Weight = OH No.

Glossary Term Deﬁnition Abrasion Wearing away of a surface in service by action such as rubbing, scraping or erosion.

Abrasion Resistance The ability of a coating to resist being worn away and to maintain its original appearance and structure when subjected to rubbing, scraping or erosion. Acid Number or Value The number of milligrams of KOH required to neutralize the free acids in 1 gram of polymer.

Aftertack Film defect in which the coated surface, having once reached a tack-free stage, subsequently develops a sticky condition. Anti-sintering The property of reducing sintering.

Architectural Coatings Coatings intended for on-site application to interior or exterior surfaces of residential, commercial, institutional or industrial buildings – as opposed to industrial coatings. Protective and decorative *nishes applied at ambient temperatures. Baking The process of drying or curing a coating by the application of heat in excess of 65°C/150°F. When below this temperature, the process is referred to as forced drying. Block Resistance Resistance to the undesirable sticking together of two painted surfaces when pressed together under normal conditions or under speci*ed conditions of temperature, pressure, and relative humidity. Blocked Isocyanate An isocyanate material in which the isocyanate groups (NCO) are blocked from carrying out their normal chemical reactions by already having been reacted, either with a speci*c blocking agent or with themselves. In the latter case the blocked isocyanate is referred to as a uretdione type, because the NCO groups have linked themselves together to produce uretdione linkages. Common blocking agents are ε-caprolactam and triazole. Blocking Agent A chemical, such as ε-caprolactam, that reacts reversibly with isocyanate groups (NCO) such that at temperatures below the deblocking temperature it is covalently bonded to the NCO groups, thereby preventing these groups from reacting with anything else. At temperatures above the deblocking temperature, the blocking agent is released from the NCO groups thus allowing them to react with, for example, the hydroxyl groups of the surrounding polyester resin.

PCCR USA, Inc. 43 June 2013 Glossary (continued)

Glossary Term Deﬁnition Blush, Blushing, (“Bloom”) Film defect which appears as a milky opalescence as the *lm dries; can be a temporary or permanent condition. It is generally caused by rapid evaporation, moisture, or incompatibility. Brush Drag Resistance encountered when applying a coating by brush.

Brushability The ability or ease with which a coating can be brushed.

Catalyst An additive that speeds up a chemical reaction, such as curing, but takes no part in the reaction.

Chalk Resistance The ability of a coating to resist the formation of a friable powder on the surface of its *lm caused by the disintegration of the binding medium due to degradative weather factors. Chip Resistance The ability of a coating or layers of coatings to resist total or partial removal, usually in small pieces, as a result of impact by hard objects or from wear during service. Compatibility Capacity of coatings from either different sources or of different compositions to be combined and applied so as to yield no visible or mechanically measurable differences in the cured *lm or application properties. Conventional Solids For the purposes of this reference guide, any material that is less than 70% solids. There may be exceptions. Copolymer A polymer consisting of molecules containing large numbers of units of two or more chemically different types in irregular sequence. Corrosion Resistance The ability of a substance to resist deterioration because of reaction with its environment.

Cracking Generally, the splitting of a dry paint or varnish *lm, usually as a result of aging or Gexing.

Crosslinking Applied to polymer molecules, the setting up of chemical links between the molecular chains to form a three-dimensional or network polymer generally by covalent bonding. Crosslinking generally toughens and stiffens coatings. Thermosetting materials crosslink under the inGuence of heat and catalysis and, in some cases, electromagnetic radiation. Cure To change the properties of a polymeric system by chemical reaction into a *nal, more stable, usable condition by the use of heat, radiation or reaction with chemical additives. D.O.I. (Distinctness of The sharpness with which image outlines are reGected by the surface of an object. Image) DCO Dehydrated castor oil

Deblocking Temperature The temperature at which the thermally reversible reaction between a blocking agent and an isocyanate group (NCO) begins to produce signi*cant quantities of freed NCO groups available for reaction. The higher the temperature a blocked isocyanate is above its deblocking temperature, the more NCO groups are made available, and the faster crosslinking reactions can be. Conversely, when an isocyanate is below its deblocking temperature, no NCO groups are available for reaction. DFT Dry *lm thickness

Dry A *lm is considered dry when using moderate pressure, it feels *rm to the touch.

Dry-Through Film is considered dry-through when no distortion of the *lm (i.e., loosening, detachment, wrinkling, etc.) occurs when the thumb is borne downward while simultaneously turning the thumb through an angle of 90° in the plane of the *lm. Dry-to-Touch A *lm is considered dry-to-touch when it no longer adheres to the *nger. The *nger leaves no marks after touching the *lm, and *lm does not rub up appreciably when *nger is lightly rubbed across the surface. DTM (Direct-to-Metal) Refers to coatings applied directly to an uncoated, non-primed metal substrate.

Edge Coverage A powder coating’s ability to Gow over, build and adhere to sharp corners, angles and edges.

Enamel Topcoat that is characterized by its ability to form a smooth surface; originally associated with a high gloss but may also include lower degrees of gloss. Equivalent Weight The equivalent weight of a material is its molecular weight divided by its functionality, the latter being the number of a given reactive group present on an average molecule of the material. For polyester resins for coating powders, the resin equivalent weight is given by 56,100 divided by the resin acid value (for carboxyl polyesters) or 56,100 divided by the resin hydroxyl value (for hydroxyl polyesters). Expressed based on a solids basis.

PCCR USA, Inc. 44 June 2013 Glossary (continued)

Glossary Term Deﬁnition Exempt Solvent Any solvent that has not been declared photochemical reactive by any of several regulatory agencies.

Extruder A device used to melt-mix plastics and/or powder coatings. An extruder utilizes heat and mechanical kneading to achieve a homogeneous mixture. FDA Food and Drug Administration

Flash Point Lowest temperature of a liquid at which it gives off suf*cient vapor to form an ignitable mixture with the air near the surface of the liquid or within the vessel used. Glass Transition The temperature at which materials in general change from either a hard glassy state to a softer, Temperature (Tg) rubbery state, or from a soft rubbery state to a harder glassy state. HAP Hazardous air pollutant

High Drink A resin is said to be high drink when, as solvent is added, there is a slow viscosity reduction, enabling lower solids at a given viscosity. High Solids For the purposes of this reference guide, any material that is 70% solids or higher. There may be exceptions. HDODA Hexanediol diacrylate

HQMME Hydroquinone monomethyl ether

Hybrid Powder Coating A powder coating whose binder component is a blend of two different resins, such as polyester and epoxy. A “60/40” polyester/epoxy hybrid for example, would have a resin component comprising 60 wt/% polyester and 40 wt/% epoxy. The functional groups on each resin are balanced so as to fully react with each other at the given wt/% ratios of each resin. Impact Fusion The tendency for particles of powder coatings to agglomerate, fuse together, or build up on surfaces, because of mechanical impact during transportation within the powder application equipment. Inhibitor A negative catalyst which prevents or retards an undesirable chemical reaction.

Isocyanate A material containing NCO groups that are available for reaction with a variety of other functional groups. Commonly those used in coating powders are polymeric in nature so as to increase their functionality. Lacquer Coating composition which is based on synthetic thermoplastic *lm-forming material dissolved in organic solvent that dries primarily by solvent evaporation. Long Oil Alkyd Alkyd resin containing more than 60% of oil in solids.

Medium Oil Alkyd Alkyd of medium oil content, usually containing from 40-60% of oil in solids.

Melt Mixing A predominant process for the manufacture of powder coatings involving the continuous compounding of the pigments, *llers, additives, resins and curing agents at elevated temperatures. MFFT (Minimum Film The minimum temperature at which an applied coating forms a continuous *lm, as evidenced by the Forming Temperature) visual lack of cracking or powdery appearance of *lm and *lm integrity, by testing the *lm on a temperature gradient plate. Modiﬁed Alkyd Modi*ed alkyds are those in which the polybasic acid is substituted in part by a monobasic acid, of which the vegetable oil fatty acids are typical. Oligomer A polymer composed of molecules containing only two, three or a few repeating structural units.

Particle Size The average diameter of a distribution of particles, usually expressed in microns or nanometers.

Pigment Volume Ratio of the volume of pigment to the volume of total nonvolatile material (i.e., pigment and binder) Concentration (PVC) present in a coating. Pinholes Film defect characterized by small pore-like Gaws in a coating that extend entirely through the applied *lm and have the general appearance of pin pricks when viewed by reGective light. Post Cure Embrittlement A process whereby a cured coating exhibits increasing embrittlement and decreasing impact resistance with age. Pot Life The length of time a paint material is useful after its original package is opened or after catalyst or other ingredients are added.

PCCR USA, Inc. 45 June 2013 Glossary (continued)

Glossary Term Deﬁnition Powder Coating Finely divided particles of organic polymer that generally contain pigments, *llers and additives and which remain *nely divided during storage under suitable conditions. Precatalyzed Usually refers to a resin that has a catalyst already added by the resin manufacturer. This ensures complete mixing of the catalyst with the resin and results in a resin that reacts faster than the uncatalyzed material. Primer The *rst complete coat of paint of a painting system applied to a surface.

Proﬁle Surface contour of a blast-cleaned or substrate surface, viewed from the edge.

Reactive Diluent A viscosity reducer for coatings that has low volatility and will become a permanent part of the coating through chemical reaction. Sagging Downward moving of a paint *lm between the times of application and setting, resulting in an uneven coating having a thick lower edge. Salt Spray Test Test applied to metal *nishes to determine their anticorrosive properties, involving spraying of common salt (sodium chloride) solution on the surface of a coated steel panel. Shelf Life The period of time for which a material can normally be stored and still be in a usable condition.

Short Oil Alkyd Alkyd resin containing less than 40% oil in solids.

Sintering The tendency of some powder coatings to agglomerate over time, often due to being stored too long at too high a temperature. Skydrol Resistance Product is resistant to hydraulic Guid Skydrol.

Surface Dry The premature drying of the surface of a liquid coating *lm so that the under portion is retarded in drying. Syneresis The separation of liquid from a gel.

Tack-Free Freedom from tack of a coating after suitable drying time.

T-Bend Flexibility Test Simple method for determining the Gexibility of coatings by bending a coated metal test strip over itself. A panel is bent and pressed Gat by means of a jig to achieve a 180° bend. Telegraphing Brush marks or other irregularities in the previous coat or substrate that show through the cured topcoat. Tg The temperature at which materials in general change from either a hard glassy state to a softer, rubbery state, or from a soft rubbery state to a harder glassy state. TGIC See Triglycidyl Isocyanurate.

TMA Trimellitic anhydride

Triglycidyl Isocyanurate A curing agent for resins containing carboxyl groups.

Two-Component Paint A coating that is manufactured in two components that must be maintained separately until shortly before use. Uretdione A material containing uretdione linkages. These linkages are produced by two NCO groups reacting with each other. The original NCO groups are then no longer available for reaction and are termed “blocked.” The reaction is reversible, such that the application of suf*cient heat will cause the regeneration of the original NCO groups, which can then react. The advantage of this type of blocking is that there is no release of any blocking agent. VOC (Volatile Organic Any organic compound that participates in atmospheric photochemical reactions; that is, any organic Compound) compound other than those that the EPA designates as having negligible photochemical reactivity. Weathering Behavior of paint *lms when exposed to natural weather or accelerated weathering equipment, characterized by changes in color, texture, strength, chemical composition or other properties. Yellowing Development of a yellow color on aging.

Yellowing Resistance The resistance a coating has to turning yellow due to, for example, extended cure times at high temperature, or the use of direct gas-*red curing ovens.

PCCR USA, Inc. 46 June 2013 Quality Policy PCCR USA’s Quality Policy

We create value for customers, employees and owners through:  External Focus: Understand and validate new market and competitive trends. Develop business processes to meet customer requirements. Bring innovative solutions to market.  Continual Improvement: Capture, institutionalize and share learnings. Adopt best practices to improve performance. Select projects that close the highest value gaps in the short, medium and long-term horizons.  Data-Driven Approach: Apply appropriate statistical and analytical tools using facts and data to make decisions, select projects and improve results.  Reliability: Provide consistent products and services to meet our customers’ needs. Invest to ensure reliable operations.  Leadership: Build a shared vision, ensure alignment, and create a motivating work environment.

Coating Resin Distributors United States Canada Mexico

HORN Univar Specialties Quimica Rana, S.A. de C.V. 16050 Canary Avenue 62 Arrow Road Mexico City La Mirada, CA 90638 North York, Ontario M9M 2L8 Miguel Angel de Quevedo #370 Phone: +1 800 442 4676 Canada Col. Barrio de Santa Catarina Fax: +1 714 670 6851 Phone: +1 416 401 3340 Del. Coyoacan Fax: +1 416 401 3345 04010 Mexico D.F. The M.F. Cachat Company Phone: +52 55 5339 0800 14725 Detroit Avenue The Caribbean, Central America, Lakewood, OH 44107 and South America Quimica Rana, S.A. de C.V. Phone: +1 800 729 8900 Monterrey Andes Chemical Corporation Fax: +1 216 228 9916 Solidaridad #2004, Fracc. 11125 N.W. 29th Street Unidad Nacional Doral, FL 33172 Santa Catarina, N.L. Phone: +1 305 591 5601 66351 Mexico Fax: +1 305 591 5607 Phone: +52 81 8336 9309

99 East Cottage Avenue Carpentersville, IL 60110 www.pccrusa.com

DISCLAIMER The information provided herein was believed by PCCR USA, Inc. (“PCCR USA”) to be accurate at the time of preparation or prepared from sources believed to be reliable, but it is the responsibility of the user to investigate and understand other pertinent sources of information, to comply with all laws and procedures applicable to the safe handling and use of the product and to determine the suitability of the product for its intended use. All products supplied by PCCR USA are subject to PCCR USA’s terms and conditions of sale. PCCR USA MAKES NO WARRANTY, EXPRESS OR IMPLIED, CONCERNING THE PRODUCT OR THE MERCHANTABILITY OR FITNESS THEREOF FOR ANY PURPOSE OR CONCERNING THE ACCURACY OF ANY INFORMATION PROVIDED BY PCCR USA, except that the product shall conform to PCCR USA’s specifications. Nothing contained herein constitutes an offer for the sale of any product.

PCCR USA, Inc. 47 June 2013