RHOPLEX 2620 100% Acrylic Polymer For High Performance Clear and Colored Sealants Description RHOPLEX 2620 emulsion is a high performance acrylic latex binder designed for sealants. This high solids (62%) emulsion affords manufacturers the opportunity to produce sealants that have +25% joint movement, exceptional dry and wet adhesion, and pass the performance requirements of the TT-S-00230C specification. Typical Physical Properties These properties are typical but do not constitute specifications. Appearance Solids (Wt. %) 62 ph 4.4 Density @ 25 C (lbs/gal) 8.8 Viscosity, @ 25 C (cps) 200 Calculated Tg, (ºC ) -34 Milky-white liquid Performance Advantages Joint Movement RHOPLEX 2620 acrylic binder has been specifically designed to provide outstanding Aymar durability. Formulations based on RHOPLEX 2620 binder can tolerate 50% total joint movement without cracking or significant loss of adhesion, even when tested at -15 F. This outstanding performance in the Aymar Cyclic Movement Test (ASTM C-719) meets the performance requirements of Class A architectural sealants (Federal Specification TT-S-00230C, Class A). Adhesion In addition to outstanding Aymar durability, RHOPLEX 2620 binder provides exceptional wet and dry peel adhesion properties (ASTM C-794). Sealants based on RHOPLEX 2620 adhere strongly to a variety of construction substrates, including glass, aluminum and concrete. With glass, for example, dry peel adhesion exceeds 25 pounds per linear inch (pli), and maintains 13 pli, even after seven days of immersion in water. (See Technical Data Sheet 83C21a-4 for detailed adhesion results.) RHOPLEX 2620 binder can be formulated to meet the wet adhesion and adhesion after UV exposure requirements of Class A architectural sealants (Federal Specification TT- S-00230C, Class A). Clear Sealants RHOPLEX 2620 binder is notable for the excellent clarity it affords to properly formulated clear sealants. This clarity offers a cost savings advantage: it allows the natural color of the substrate to show through, eliminating the need for a series of color-matching caulks. Formulation Considerations A suggested starting point formulation is shown in Technical Data Sheet 83C21a-1. We recommend adding the raw materials in the order listed to facilitate ease of incorporation. Note that the sodium lauryl sulfate (SLS) and water should be premixed, as should the mineral oil, adhesion promoter, and the ammonium hydroxide and water. The fumed silica should be added after the ammonium hydroxide/water premix to reduce the time required for incorporation of the fumed silica. For exceptional mildew resistance, we recommend Skane M-8 mildewcide, which should be added just prior to the fumed silica addition.
It should be noted that foam control is particularly critical in formulating clear sealants. The formulation should be deaerated by running the mixer under vacuum during the last five to ten minutes of mixing. Formulation Guide With Clear Sealant Formulation TC-20-3 Materials Pounds Gallons RHOPLEX 2620 1 726.42 82.52 Sodium Lauryl Sulfate (Stepan WA-100) 2 KATHON LX, 1.5% 1 } premix 1.12 10.00 0.60 0.13 1.20 0.07 Propylene Glycol Ethylene Glycol White Mineral Oil 3 Adhesion Promoter (Silane Z-6040) 4 Ammonium Hydroxide (28% NH 3 ) SKANE M-8 1 Fumed Silica (Cab-O-Sil M-5) 5 Ultra-Violet Absorber (Tinuven 1130) 6 Hindered Amine Light Stabilizer (Tinuven 765) 6 Add materials to a sigma blade mixer in the order listed and mix for 30 minutes Total volume, gal % solids by wt (theory) % solids by volume (theory) Density @ 25 C, lb/gal 100.54 60.16 57.46 8.79 7.48 7.48 49.88 4.04 7.50 42.64 0.50 24.94 0.50 0.50 0.86 0.80 6.87 0.45 0.97 5.12 0.06 1.37 0.05 0.05 1 Rohm and Haas Co., Philadelphia, PA 2 Stepan Chem. Co., Northfield, IL 3 Amoco 35 USP, Amoco Oil Company, Ellicott City, MD; Drakeol 35, Penreco, Butler, PA; or equivalent 4 Dow Corning Corp., Midland, MI 5 Cabot Corp., Tuscola, IL 6 Ciba Geigy Corp., Hawthorne, NY Properties of Clear Sealants Formulated With Typical Stability and Application Properties of TC-20-3 Sealant Consistency, seconds 1 Initial After 7 days @ 60 C After 4 weeks @ 50 C After 5 freeze/thaw cycles After 5 freeze/thaw cycles +1 week @ 50 C ph Initial After 7 days @ 60 C After 4 weeks @ 50 C After 5 freeze/thaw cycles After 5 freeze/thaw cycles +1 week @ 50 C Dry Time (1/4" bead) Slump, inches (1/2" x 3/4" SS channel) 0 21 19 22 27 14 7.8 7.5 7.4 7.7 7.6 <7 days
Crack resistance (1/2" x 3/4" unpainted pine channel) Cure = 1 wk. @ 25 C/50% RH Cure = 1 wk. @ 50 C Flexibility @ = 15 F 2 (1/8" slab on aluminum) Cure = 1 wk. @ 50 C 1 1/8 in. orifice on a 6 oz. Semco cartridge. 2 1/2 in. mandrel Tensile strength, psi 25 C max. 0 C max. -18 C max. Elongation, % 25 C @max. tensile 0 C @max. tensile -18 C @max. tensile Properties of Clear Sealants Formulated With Typical Mechanical Properties 1 of TC-20-3 Sealant 2 40 39 >118 3 >118 670 670 1145 1155 >1700 3 >1700 695 695 Recovery after 25% extension, % 25 C 92 1 1/2" gauge length, 0.2 in./min. crosshead speed 2 1/8" slabs cured 1 week at 25 C + 2 weeks at 50 C 3 Test was terminated at 1,700% elongation (118 psi tensile) Properties of Clear Sealants Formulated With Dry and Wet Peel Adhesion 3 of TC-20-3 Sealant Dry Peel Adhesion 1 (lb/in) White Pine Wet Peel Adhesion 2 (lb/in) White Pine 26 C >20FT 18 C 24 C >13 FD >13 FD 13 C 22 C/SF
Wet Peel Adhesion (lb/in) of caulks aged 1 week @ 60 C Wet Peel Adhesion (lb/in) of caulks aged 4 weeks @ 50 C >10 FD >10 CP 1 Cured 1 week at 50 C 2 Cured samples were soaked in water for 1 week 3 Adhesion was tested at 2 in/min crosshead speed. Failure modes are as follows: C = Cohesive CP = Cohesive Peak FD = Fabric Delamination FT = Fabric Tear SF = Substrate Failure Performance of Clear Sealants Formulated With Typical Performance of TC-20-3 in Federal Specification TT-S-00230C, Class A STANDARD REQUIREMENTS TC-20-3 Slump Vertical at 50 C Vertical at 25 C Horizontal at 50 C Horizontal at 25 C Extrusion Rate Shore A Hardness Weight Loss Cracking Chalking Tack Free Time, hrs. Stain Aymar Durability, Class A Wet Adhesion, pli 1 Adhesion after UV exposure, pli 1 3/16" max. 3/16" max. No deformation No deformation < = 45 sec (1/2" orifice) 15 min. 50 max. 10% max. allowed allowed 72 max. allowed < = 1 1/2 sq in total loss in bond and cohesive areas <5 10 40% < = 7 > 13 FD > 13 FD 13 C 15 LC/C NOTE: Shore A hardness, Aymar durability, and peel adhesion were determined after curing one week at 25 C plus two weeks at 50 C. 1 Adhesion failure modes: FD = Fabric Delamination C = Cohesive LC = Light Cohesive Failure
Formulation Guide With White Sealant Formulation AS-20-1 Materials Pounds Gallons RHOPLEX 2620 1 686.10 77.94 Sodium Lauryl Sulfate 2 1.10 10.00 0.13 1.20 Propylene Glycol Ethylene Glycol White Mineral Oil 3 Adhesion Promoter (Silane Z-6040) 4 7.50 7.50 75.00 3.80 0.87 0.81 10.33 0.43 Ammonium Hydroxide (28% NH 3 ) Fumed Silica (Cab-O-Sil M-5) 5 Titanium Dioxide (R-960) 6 Zinc Oxide (Kadox 915) 7 SKANE M-8 1 *** Mix 10 minutes *** *** Mix 10 minutes *** 7.00 62.00 24.90 9.50 2.50 1.00 Add materials to a sigma blade mixer in the order listed and mix for 1 hour. Adjust the final ph to 8.0 with ammonium hydroxide. Total volume, gal % solids by wt (theory) % solids by volume (theory) % plasticizer on binder Pigment/binder ratio Pigment/(binder + plasticizer) PVC Density @ 25 C, lb/gal 101.88 60.43 57.75 17.58 0.09 0.07 2.93 8.81 1 Rohm and Haas Co., Philadelphia, PA 2 Stepan "WA-100" or the equivalent 3 Amoco 35 USP, Amoco Oil Company, Ellicott, MD; Drakeol 35, Penreco, Butler, PA; or equivalent 4 Dow Corning Corp., Midland, MI 5 Cabot Corp., Tuscola, IL 6 DuPont, Wilmington, DE 7 Zinc Corporation of America, Monaca, PA 0.91 7.44 1.37 0.29 0.05 0.12 Safe Handling Information Rohm and Haas Company maintains comprehensive and up-to-date Material Safety Data Sheets (MSDS) on all of its products. These sheets contain pertinent information that you may need to protect your employees and customers against any known health or safety hazards associated with our products. Rohm and Haas Company recommends that you obtain copies of our Material Safety Data Sheets from your local Rohm and Haas representative on each of our products prior to its use in your facilities. We also suggest that you contact your supplier(s) of other materials recommended for use with our products for appropriate health and safety precautions prior to their use.
KATHON, RHOPLEX and SKANE are trademarks of Rohm and Haas Company, or of its subsidiaries or affiliates, and is intended to designate goods marketed in North and South America. The same goods may be marketed in other countries, generally under other Company trademark designations. These suggestions and data are based on information we believe to be reliable. They are offered in good faith, but without guarantee, as conditions and methods of use of our products are beyond our control. We recommend that the prospective user determines the suitability of our materials and suggestions before adopting them on a commercial scale. Suggestions for uses of our products or the inclusion of descriptive material from patents and the citation of specific patents in this publication should not be understood as recommending the use of our products in violation of any patent or as permission or license to use any patents of the Rohm and Haas Company. For further details, please contact your local Account Manager or local Business Representative. Rohm and Haas, 2006 All rights reserved. October 1997