PARALOID B-66DMC, 44.5% Thermoplastic Acrylic Resin in Dimethyl Carbonate

Technical Data Sheet PARALOID B-66DMC, 44.5% Thermoplastic Acrylic Resin in Dimethyl Carbonate Description PARALOID B-66DMC Acrylic Resin is an excellent general purpose resin which can be used in a variety of applications such as general industrial finishes, plastic coatings, aerosols, inks and graphic arts, and as a sealer for concrete surfaces. Because dimethyl carbonate (DMC) has been classified as VOC-exempt by the EPA, PARALOID B-66DMC Acrylic Resin can be used in applications where reduced VOC is needed. Therefore, PARALOID B-66DMC would be an excellent choice for low VOC concrete sealers for California and other areas of the United States. Note: That DMC is considered VOC-exempt in most of the United States. Please check with your state and local agencies to ensure that DMC is recognized as VOC-exempt for your application and region. Features and Benefits Typical and Physical Properties Low VOC capability Fast solvent release / fast dry Excellent exterior durability Excellent water resistance properties Excellent adhesion to metal, concrete and plastic Modifier for vinyl, alkyd, nitrocellulose, and chlorinated rubber resins (These properties are typical but do not constitute specifications). Property Typical Values Weight % Solids 44.5 Solvent Dimethyl Carbonate Viscosity, cp 1, to 3, Flash Point, C 16 Density, Lbs/Gal 9. Molecular Weight, Weight Avg. 7, Glass Transition Temperature, C 5 Chemical Composition MMA / BMA copolymer Potential Applications Concrete Sealers Industrial Maintenance Finishes for Steel and Concrete General Industrial Finishes for Metal, Plastic and Wood Aerosols Inks and Graphic Arts Plastic Coatings Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow 884-33-112-NAR-EN Page 1 of 7 PARALOID B-66DMC, 44.5% Thermoplastic Acrylic Resin / Dow Coating Materials 1/212, Rev. 1

Formulating Guidelines PARALOID B-66DMC Acrylic Resin should have similar solvent compatibility as PARALOID B-66 Solution Acrylic Resins in xylene and toluene, but actual viscosity values may vary. Dimethyl carbonate has a faster evaporation rate than toluene (3.3 for DMC versus 2. for toluene), so the solvent package for the formulation will need to be modified with a slower evaporating solvent in order to achieve the proper balance of viscosity and film drying rate. For example, since parachlorobenzotrifluoride (PCBTF) has an evaporation rate similar to xylene, it can be blended with DMC to slow down the drying rate of the formulation while maintaining reduced VOC. In addition, a small amount of acetone or t- butyl acetate can be included in the solvent package to lower viscosity, if needed. Note that t-butyl acetate and DMC are considered VOC-exempt in most of the United States. The regulatory status for DMC and t-butyl acetate in California is currently under consideration on a county by county and regional basis, and has been approved in many, but not all, areas. Please check with your state and local agencies to ensure that t-butyl acetate and DMC are recognized as VOC-exempt for your application and region. PARALOID B-66DMC Acrylic Resin exhibits ultra-low VOC as supplied in areas where DMC is VOC-exempt. DMC has a melting point of 2 to 4 C so that it will have a freezing point above that of water. As a result, formulations based on PARALOID B-66DMC Acrylic Resin should be tested for freeze / thaw stability. The resin by itself is freeze / thaw stable. Formulations using DMC will need to be modified with slower evaporating solvent to achieve an optimum balance of viscosity and film drying rate. Table 1 shows the relative evaporation rates of some common solvents which count towards the VOC of a formulation, along with the typical VOC-exempt solvents used in the coatings industry. The majority of VOC-exempt solvents are fast evaporating, with the exception of PCBTF (Table 1). However, PCBTF is a weak solvent and does not dissolve resins to similar low viscosities at the same solids that would be seen with the standard solvents (such as xylene). Table 1: A Comparison of the Evaporation Rate of Some VOC Exempt Solvents Solvent Evaporation Rate Acetone* 5.7 Methyl Acetate* 5.3 MEK 4. Dimethyl Carbonate* 3.3 t-butyl Acetate* 2.8 Toluene 2. n-butyl Acetate 1. PCBTF*.9 Xylene.8 PM Acetate.34 Note: The asterisk (*) indicates that the solvent is considered a VOC-exempt solvent. Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow 884-33-112-NAR-EN Page 2 of 7 PARALOID B-66DMC, 44.5% Thermoplastic Acrylic Resin / Dow Coating Materials 1/212, Rev. 1

As a result, the formulator will be constrained by the evaporation rate and the viscosity of the mixture in order to develop a practical formulation. Another approach is to include small amounts of propylene carbonate in the formulation to help slow down the overall evaporation rate of the formulation. Two things need to be considered when using propylene carbonate, which is also considered a VOC-exempt solvent. First is that PARALOID B-66 Acrylic Resin is not soluble in propylene carbonate as the main solvent, but propylene carbonate can be used as a small component of a solvent mixture. The second consideration is the extremely slow evaporation rate of propylene carbonate (<.5 versus 1. for n-butyl acetate). If one were to place a small drop of propylene carbonate on a metal panel, the droplet would still be present after eight hours. It is possible that as the other solvents in the mixture leave the film, the remaining propylene carbonate may migrate into the resin and could lead to some level of plasticization. Performance Data Applications Testing of Concrete Sealer Formulations With the above considerations in mind, we evaluated the starting point concrete sealer formulations shown in the Formulations section below, and compared them to a control system consisting of PARALOID B-66 Acrylic Resin dissolved in xylene. The clear sealer formulations for concrete based on PARALOID B-66DMC are offered as starting points for developing low or ultra-low VOC sealers. The formulator will need to test and possibly modify the formulation in order to achieve the best balance of properties. Table 2 indicates that the film hardness development is similar for the starting point formulations both with and without propylene carbonate (Formulations B66DMC-1, 2 and 3). Note that all three starting point formulations contain PCBTF in order to moderate the drying rate of the film. Moreover, the control formulation gives consistently harder films versus drying time, highlighting the faster release of xylene from the film. This suggests that the PCBTF may also be playing a major role in the film hardness development. However, it appears that as the films dry over time, the starting point formulations are becoming closer in film hardness compared to the control. Konig hardness measurements indicate that propylene carbonate does not contribute appreciably to softening the films, especially after one day of curing. Including propylene carbonate in the formulation improves the dry to touch time compared with Formulation B66DMC-1, which contains dimethyl carbonate, PCBTF and PM Acetate. The addition of propylene carbonate allows the film to have a similar dry to touch time as the control, PARALOID B-66 in xylene. However, the control formulation appears to remain in a wet or liquid state longer before the film starts to get tacky. This may provide more time for the film to penetrate and bond with the concrete substrate. The correct balance of VOCexempt solvents is needed so the film does not dry too quickly and has enough time to penetrate into the concrete substrate. Fast drying could result in excessive hold out, with too thick of a film on top of the substrate, which could then delaminate and crack over time. Full evaluation of formulations in their intended applications is recommended. The starting point concrete sealer formulations have excellent water whitening resistance relative to the control. Therefore, the presence of propylene carbonate and PCBTF did not hurt the water whitening resistance of the dry films. Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow 884-33-112-NAR-EN Page 3 of 7 PARALOID B-66DMC, 44.5% Thermoplastic Acrylic Resin / Dow Coating Materials 1/212, Rev. 1

Table 2: Applications Testing of Starting Point Concrete Sealer Formulations Based on PARALOID B-66DMC Acrylic Resin Formulation1 B66DMC-1 B66DMC-2 B66DMC-3 Control Description Low VOC Concrete Sealer Ultra-Low VOC Concrete Sealer w/ 1% Propylene Carbonate Ultra-Low VOC Concrete Sealer w/ 13% Propylene Carbonate PARALOID B-66 in Xylene VOC (g/l) 88 Near Near 688 Solvents (%) Dimethyl Cabonate Propylene Carbonate PCBTF PM Acetate Xylene 41.6 55.5 2.9 Viscosity 2 (cp) 47 55 54 33 Dry to Touch 4 (min) 9 16 17 18 Konig Hardness (sec) 1 d 2 d 3 d 8 d 14 d 83 94 14 125 134 Water Whitening 5 ( L*) After 24 hr water soak.4.22.27.2 46.4 9.8 43.8 73 88 99 13 141 48.1 13. 38.9 71 88 11 133 146 1 19 12 129 147 154 Notes to Table 2: 1) All formulations were prepared at 25 weight % solids. The control contains PARALOID B-66 in xylene at 25% solids. 2) The viscosity of the solutions was measured with a Brookfield Viscometer at ambient conditions with #2 spindle at 12 rpm. 3) The films were cast by drawdown bar over treated aluminum panels, to give a dry film thickness of approximately 1.5 mils. The dimensions of the drawdown area tested were 1 by 3 inches. 4) The dry to touch time is the time needed for a film to be dry so that when a gloved finger comes into contact with the film anywhere on the draw down, the film does not have any tackiness. 5) The water whitening test was conducted with films on black vinyl scrub charts. Films were dried for 5 days, then immersed in deionized water for 24 hours. Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow 884-33-112-NAR-EN Page 4 of 7 PARALOID B-66DMC, 44.5% Thermoplastic Acrylic Resin / Dow Coating Materials 1/212, Rev. 1

Starting Point Formulation B-66DMC-1 Low VOC Concrete Sealer based on PARALOID B-66DMC Acrylic Resin Material Name Pounds Gallons PARALOID B-66DMC, 44.5% 549.5 61. PM Acetate 21.5 2.7 PCBTF 47.1 36.3 Totals 978.1 1. Formulation Properties: Weight Solids: 25. Viscosity (cp): 47 Density (lb/gal): 9.78 VOC (g/l): 88 Solvent Package (%): Dimethyl carbonate 41.6 PM Acetate 2.9 PCBTF 55.5 Starting Point Formulation B-66DMC-2 Ultra-Low VOC Concrete Sealer based on PARALOID B-66DMC Acrylic Resin Material Name Pounds Gallons PARALOID B-66DMC, 44.5% 54.2 6. Propylene carbonate 7.4 7.9 PCBTF 315.7 28.2 Dimethyl carbonate 35.2 3.9 Totals 961.5 1. Formulation Properties: Weight Solids: 25. Viscosity (cp): 55 Density (lb/gal): 9.62 VOC (g/l): near Solvent Package (%): Dimethyl carbonate 46.4 Propylene carbonate 9.8 PCBTF 43.8 Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow 884-33-112-NAR-EN Page 5 of 7 PARALOID B-66DMC, 44.5% Thermoplastic Acrylic Resin / Dow Coating Materials 1/212, Rev. 1

Starting Point Formulation B-66DMC-3 Ultra-Low VOC Concrete Sealer based on PARALOID B-66DMC Acrylic Resin Material Name Pounds Gallons PARALOID B-66DMC, 44.5% 535.7 59.5 Propylene carbonate 93.1 1.4 PCBTF 278.1 24.9 Dimethyl carbonate 46.6 5.2 Totals 953.5 1. Formulation Properties: Weight Solids: 25. Viscosity (cp): 54 Density (lb/gal): 9.53 VOC (g/l): near Solvent Package (%): Dimethyl carbonate 48.1 Propylene carbonate 13. PCBTF 38.9 Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow 884-33-112-NAR-EN Page 6 of 7 PARALOID B-66DMC, 44.5% Thermoplastic Acrylic Resin / Dow Coating Materials 1/212, Rev. 1

Handling Precautions Storage Disposal Considerations Before using this product, consult the Material Safety Data Sheet (MSDS)/Safety Data Sheet (SDS) for details on product hazards, recommended handling precautions and product storage. Store products in tightly closed original containers at temperatures recommended on the product label. Dispose in accordance with all local, state (provincial) and federal regulations. Empty containers may contain hazardous residues. This material and its container must be disposed in a safe and legal manner. It is the user's responsibility to verify that treatment and disposal procedures comply with local, state (provincial) and federal regulations. Contact your Dow Coating Materials Technical Representative for more information. Chemical Registration Product Stewardship Customer Notice Many countries require the registration of chemicals, either imported or produced locally, prior to their commercial use. Violation of these regulations may lead to substantial penalties imposed upon the user, the importer or manufacturer, and/or cessation of supply. It is in your interests to ensure that all chemicals used by you are registered. The Dow Chemical Company does not supply unregistered products unless permitted under limited sampling procedures as a precursor to registration. Dow has a fundamental concern for all who make, distribute, and use its products, and for the environment in which we live. This concern is the basis for our product stewardship philosophy by which we assess the safety, health, and environmental information on our products and then take appropriate steps to protect employee and public health and our environment. The success of our product stewardship program rests with each and every individual involved with Dow products - from the initial concept and research, to manufacture, use, sale, disposal, and recycle of each product. Dow strongly encourages its customers to review both their manufacturing processes and their applications of Dow products from the standpoint of human health and environmental quality to ensure that Dow products are not used in ways for which they are not intended or tested. Dow personnel are available to answer your questions and to provide reasonable technical support. Dow product literature, including safety data sheets, should be consulted prior to use of Dow products. Current safety data sheets are available from Dow. Contact: North America: 1-8-447-4369 Latin America: (+55)-11-5188-9 Europe: (+8)-3-694-6367 Asia-Pacific: (+8)-7776-7776 http://www.dowcoatingmaterials.com Notice: No freedom from infringement of any patent owned by Dow or others is to be inferred. Because use conditions and applicable laws may differ from one location to another and may change with time, Customer is responsible for determining whether products and the information in this document are appropriate for Customer's use and for ensuring that Customer's workplace and disposal practices are in compliance with applicable laws and other government enactments. The product shown in this literature may not be available for sale and/or available in all geographies where Dow is represented. The claims made may not have been approved for use in all countries. Dow assumes no obligation or liability for the information in this document. References to Dow or the Company mean the Dow legal entity selling the products to Customer unless otherwise expressly noted. NO WARRANTIES ARE GIVEN; ALL IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE ARE EXPRESSLY EXCLUDED. Trademark of The Dow Chemical Company ( Dow ) or an affiliated company of Dow 884-33-112-NAR-EN Page 7 of 7 PARALOID B-66DMC, 44.5% Thermoplastic Acrylic Resin / Dow Coating Materials 1/212, Rev. 1