WO2008109072A1 - Flexible thermal cure silicone hardcoats - Google Patents
Flexible thermal cure silicone hardcoats Download PDFInfo
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- WO2008109072A1 WO2008109072A1 PCT/US2008/002852 US2008002852W WO2008109072A1 WO 2008109072 A1 WO2008109072 A1 WO 2008109072A1 US 2008002852 W US2008002852 W US 2008002852W WO 2008109072 A1 WO2008109072 A1 WO 2008109072A1
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
- C09D183/00—Coating compositions based on macromolecular compounds obtained by reactions forming in the main chain of the macromolecule a linkage containing silicon, with or without sulfur, nitrogen, oxygen, or carbon only; Coating compositions based on derivatives of such polymers
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08G—MACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
- C08G77/00—Macromolecular compounds obtained by reactions forming a linkage containing silicon with or without sulfur, nitrogen, oxygen or carbon in the main chain of the macromolecule
- C08G77/02—Polysilicates
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L83/00—Compositions of macromolecular compounds obtained by reactions forming in the main chain of the macromolecule a linkage containing silicon with or without sulfur, nitrogen, oxygen or carbon only; Compositions of derivatives of such polymers
- C08L83/04—Polysiloxanes
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
- C09D183/00—Coating compositions based on macromolecular compounds obtained by reactions forming in the main chain of the macromolecule a linkage containing silicon, with or without sulfur, nitrogen, oxygen, or carbon only; Coating compositions based on derivatives of such polymers
- C09D183/02—Polysilicates
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
- C09D183/00—Coating compositions based on macromolecular compounds obtained by reactions forming in the main chain of the macromolecule a linkage containing silicon, with or without sulfur, nitrogen, oxygen, or carbon only; Coating compositions based on derivatives of such polymers
- C09D183/04—Polysiloxanes
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T428/00—Stock material or miscellaneous articles
- Y10T428/31504—Composite [nonstructural laminate]
- Y10T428/31652—Of asbestos
- Y10T428/31663—As siloxane, silicone or silane
Definitions
- the present invention relates generally to protective coatings for plastic articles, more particularly, to a flexible heat curable silicone hardcoat composition comprising aqueous/organic solvent silicone dispersion and silylating agent.
- Other embodiments of the present invention are directed to a process for making flexible silicone hardcoat compositions.
- a hardcoat (a.k.a., hard coating) will refer to a coating that exhibits good mechanical properties, such as, flexibility, scratch- resistance and abrasion-resistance.
- thermal cure silicone hardcoats are often too stiff and/or brittle to be flexed or bent beyond a 1.8 percent "strain" with out fracturing, i.e., cracking or delaminating from a substrate.
- This limitation has restricted the use of silicone hardcoat materials to applications were the substrate is rigid enough to keep deformation, at the surface, to less than 1.8 percent strain.
- thermal cure silicone hardcoats is precluded from flexible plastic films and polyethylene terephthalate (PET) films in particular, due to the tendency of the coating to fracture when the plastic film is flexed during handling.
- harder more highly crosslinked hardcoats exhibit improved scratch resistance, however, they are less flexible and much more susceptible to chipping or thermomechanical cracking due to embrittlement of the film resulting from a high crosslink density.
- softer, less crosslinked hardcoat while not as prone to chipping or thermomechanical cracking, is susceptible to scratching, waterspotting, and acid etch due to a low crosslink density.of the cured film.
- thermally cured silicone hardcoats are treated with other materials, e.g., UV absorbing materials to prevent degradation of the underlying polymer substrate from exposure to ultraviolet (UV) light, which effects the adhesion of the coating to the substrate and the mechanical and optical properties of the substrate.
- UV ultraviolet
- the present invention provides a heat curable silicone hardcoat composition
- a heat curable silicone hardcoat composition comprising: a) an aqueous/organic solvent silicone dispersion containing colloidal silica and a partial condensate of at least one organoalkoxysilane said dispersion possessing a T 3 : T 2 ratio from about 0.4 to about 1.3; and b) at least one silylating agent.
- the present invention further provides a process for making a heat curable silicone hardcoat composition
- a process for making a heat curable silicone hardcoat composition comprising: a) preparing an aqueous/organic solvent silicone dispersion containing colloidal silica and a partial condensate of at least one organoalkoxysilane, wherein the dispersion possesses a T 3 : T 2 ratio from about 0.4 to about 1.3; b) adding at least one silylating agent; and, optionally, c) cooling the aqueous/organic solvent silicone dispersion prior to adding the silylating agent to provide a heat curable silicone hardcoat composition.
- the cured silicone hardcoat composition of the present invention possesses short production time, improved elongation, improved resistance to cracking under exposure to mechanical and thermomechanical stresses.
- aqueous/organic solvent silicone dispersion is understood herein to be a dispersion containing colloidal silica and the partial condensate of at least one organoalkoxysilane as defined in more detail hereinafter.
- a silylating agent e.g., polyethyleneterephthalate (PET) and polycarbonate (PC) substrates
- thermal cure e.g., thermal cure to provide silicone hardcoat composites exhibiting improved flexibility, adhesion, resistance to cracking, abrasion resistance, and weathering protection.
- Aqueous/organic solvent silicone dispersions are known in the art.
- these compositions have a dispersion of colloidal silica in an aliphatic alcohol/water solution of the partial condensate of an alkyltrialkyoxysilane, which can be methyltrimethoxysilane.
- Aqueous colloidal silica dispersions generally have a particle size in the range of 5 to 150 millimicrons in diameter. These silica dispersions are prepared by methods well-known in the art and are commercially available.
- additional alcohol, water, or a water-miscible solvent can be added.
- the solvent system should contain from about 20 to about 75 weight percent alcohol to ensure solubility of the siloxanol formed by the condensation of the silanol.
- a minor amount of an additional water-miscible polar solvent such as acetone, butyl cellosolve, and the like can be added to the water-alcohol solvent system.
- the composition is allowed to age for a short period of time to ensure formation of the partial condensate of the silanol, i.e., the siloxanol.
- aqueous/organic solvent silicone dispersions can be found in U.S. Pat. No.3,986,997 to Clark which describes acidic dispersions of colloidal silica and hydroxylated silsesquioxane in an alcohol-water medium with a pH of about 3-6. Also, U.S. Pat. No.
- 4,177,315 to Ubersax discloses a coating composition comprising from about 5 to 50 weight percent solids comprising from about 10 to 70 weight percent silica and about 90 to 30 weight percent of a partially polymerized organic silanol of the general formula RSi(OH) 3 , wherein R is selected from methyl and up to about 40% of a radical selected from the group ' consisting of vinyl, phenyl, gamma-glycidoxypropyl, and gamma-methacryloxypropyl, and about from 95 to 50 weight percent solvent, the solvent comprising about from 10 to 90 weight percent water and about from 90 to 10 weight percent lower aliphatic alcohol, the coating composition having a pH of greater than about 6.2 and less than about 6.5.
- RSi(OH) 3 wherein R is selected from methyl and up to about 40% of a radical selected from the group ' consisting of vinyl, phenyl, gamma-glycidoxypropyl, and gamma-methacryloxyprop
- Patent No. 4,476,281 to Vaughn describes hard coat composition having a pH from 7.1-7.8.
- U.S. Pat. No. 4,239,798 to Olson et al. discloses a thermoset, silica-filled, organopolysiloxane top coat, which is the condensation product of a silanol of the formula RSi(OH) 3 in which R is selected from the group consisting of alkyl radicals of 1 to 3 carbon atoms, the vinyl radical, the 3,3,3-trifluoropropyl radical, the gamma-glycidoxypropyl radical and the gamma- methacryloxypropyl radical, at least 70 weight percent of the silanol being CH 3 Si(OH) 3 .
- the content of the forgoing patents are herein incorporated by reference.
- the colloidal silica dispersions of the present invention can contain partial condensates of both organotrialkoxysilanes and diorganodialkoxysilanes, as more fully described herein below; and can be prepared with suitable organic solvents, such as, for example, 1 to 4 carbon alkanol, such as methanol, ethanol, propanol, isopropanol, butanol; glycols and glycol ethers, such as propyleneglycolmethyl ether and the like and mixtures thereof.
- suitable organic solvents such as, for example, 1 to 4 carbon alkanol, such as methanol, ethanol, propanol, isopropanol, butanol
- glycols and glycol ethers such as propyleneglycolmethyl ether and the like and mixtures thereof.
- the T 3 T 2 ratio is understood herein to mean the relationship of the amount of tri-condensed, tri-functional silane, i.e. T 3 , to the amount of di-condensed, trifunctional silane, i.e., T 2 , in the dispersion.
- the T 3 species is a silicon atom that is covalently bonded to one carbon atom and three oxysilyl groups, i.e. C-Si(OSi) 3 .
- the T 2 species is a silicon atom that is covalently bonded to one carbon atom, two oxysilyl groups and one hydroxyl or oxycarbyl group, i.e. C-Si(OSi) 2 OH or C-Si(OSi) 2 (OC).
- the T 3 T 2 ratio is most conveniently measured by using Si 29 NMR to measure the quantity of each type of silicon species in the resin solution and monitoring its change over time. Samples for Si 29 NMR analysis are prepared by mixing 3.0 mL of a 20-25% solids hardcoat resin solution with 2.0 mL of a solution of 0.7% (wt/vol) chromium(IH) acetyl-acetonate in deuterated acetone.
- Samples are then analyzed in a Bruker DPX-400 NMR system equipped with a Si-29 background free probe with H-I decoupling capability.
- a 200 ppm sweep width is used at a carrier frequency at -50 ppm.
- Raw data is acquired using the "zgig" pulse program, waltz-16 gated H 1 decoupling, and a relaxation delay of 5 seconds.
- a total of 3600 scans are typically acquired in order to give data with a good signal to noise ratio.
- the integration of the resonances corresponding to T 3 and T 2 are then used to calculate the T 3 : T 2 ratio.
- the change in the T 3 : T 2 ratio over time is a function of many factors such as resin composition, resin molecular weight, pH, concentration, temperature, etc.
- the increase in the T 3 :T 2 ratio over time correlates with an increase in resin molecular weight and solution viscosity.
- the T 3 : T 2 ratio of the aqueous/organic solvent silicone dispersion, i.e., component (a) of the present invention is from about 0.4 to about 1.3.
- the T : T 2 ratio of the aqueous/organic solvent silicone dispersion is from about 0.8 to about 1.2, and in yet another specific embodiment the T 3 : T 2 ratio is from about 0.85 to about 1.15.
- the aqueous/organic solvent silicone dispersion of colloidal silica and partial condensate is prepared by initially mixing a trialkoxysilane, e.g., methyltrimethoxysilane and acetic acid, and thereafter adding the colloidal silica, e.g., Ludox, AS-40, along with deionized water.
- the resulting mixture is aged, and optionally agitated, for about 16 hours or more until its T 3 : T 2 ratio is from about 0.4 to about 1.3.
- the aging occurs under ambient conditions during which time a suitable alcohol, such as, isopropanol, butanol or mixture thereof can be added.
- slightly elevated temperature from about 25° to about 65°C can be used after the initial 16 hour period to accelerate the aging process to obtain the necessary T 3 : T 2 ratio.
- the aqueous/organic solvent silicone dispersions of the present invention can be prepared by adding a trialkoxysilane, e.g., methyltrimethoxysilane, to a commercially available aqueous dispersion of colloidal silica.
- a trialkoxysilane e.g., methyltrimethoxysilane
- examples of commercially available aqueous dispersion of colloidal silica include, for example, Ludox HS 40 and Ludox TM 50 available from Grace-Davidson Co. and Nalco 1034A available from the Nalco Chemical Co. of Naperville, 111., which have been treated with glacial acetic acid to adjust the pH.
- a colloidal silica dispersion of the present invention can be prepared by the methods described in p312-461, "The Chemistry of Silica", Ralph K. Her, John Wiley & Sons, (1979), pg. 312-461 (ISBN 0-471 -02404-X).
- the organoalkoxysilane(s) used in the aqueous/organic solvent silicone dispersion of the present invention include organotrialkoxysilanes of the general Formula (1):
- Useful organotrialkoxysilanes which can form a partial condensate include, but are not limited to 3,3,3-trifluoropropyltrimethoxysilane, methyltrimethoxysilane, methyltrihydroxysilane, ethyltrimethoxysilane, methyltriacetoxysilane, ethyltriethoxysilane, methyltriethoxysilane, phenyltrialkoxysilane (e.g., phenyltriethoxysilane and phenyltrimethoxysilane), and mixtures thereof and the like.
- the organotrialkoxysilane used to prepare the aqueous/organic solvent silicone dispersion of the present invention is methyltrimethoxysilane or methyltrihydroxysilane, or a mixture thereof.
- organoalkoxysilanes can be added to the aqueous/organic solvent silicone dispersion to provide partial condensates.
- Useful diorganodialkoxysilane include, but are not limited to
- the diorganodialkoxysilane used to prepare the aqueous/organic solvent silicone dispersion of the present invention is dimethyldimethoxysilane or dimethyldihydroxysilane, or a mixture thereof.
- Useful monofunctional silylating agents of the present invention include, but are not limited to trimethylchlorosilane, triethylchlorosilan ⁇ , phenyldirnethylchlorosilane, trimethylacetoxysilane, N-(t-butyldimethylsilyl)-N-methyltrifluoroacetarnide, t-butyldimethylsilyltrifluoromethanesulfonate, n-butyldimethyl(dimethylamino)silane, hexamethyldisilazane (HMDZ), divinyltetramethyldisilazane, 3,3 ,3-trifluoropropyldimethylmethoxysilane, trimethylmethoxysilane, trimethylhydroxysilane, triethylmethoxysilane, 3,3,3-trifluoropropyldimethylacetoxysilane, and triethylethoxys
- hexamethyldisilazane is the silylating agent used to provide the thermal cure silicone hardcoat composition.
- Additional silylating agents can be used in the preparation of the heat curable silicone hardcoat compositions of the present invention and include diorganodialkoxysilanes, as described herein above, and organotrialkoxysilanes of the general Formula (4):
- Useful organotrialkoxysilanes silylating agents include, but are not limited to 3,3,3-trifluoropropyltrimethoxysilane, hexyltrimethoxysilane, phenyl trialkoxysilane (e.g., phenyltriethoxysilane and phenyltrimethoxysilane), and mixtures thereof and the like.
- the heat curable silicone hardcoat composition comprises: a) an aqueous/organic solvent silicone dispersion containing colloidal silica and a partial condensate of at least one organoalkoxysilane said dispersion possessing a T 3 : T 2 ratio from about 0.4 to about 1.3; and b) at least one monofunctional silylating agent, wherein the monovalent silylating agent is described by general Formula (3)
- Particularly useful monofunctional silylating agents are selected from the group consisting of N-(t-butyldimethylsilyl)-N-methyltrifluoroacetamide, N-(trimethylsilyl)-N-methyltrifluoroacetamide, hexamethyldisilazane and divinyltetramethyldisilizane.
- the inventive composition provides for the reaction of an aqueous/organic solvent silicone dispersion containing colloidal silica and a partial condensate of at least one organoalkoxysilane, e.g., AS4010 (which is a partial condensate of methyltrimethoxysilane, colloidal silica, and silyiated dibenzoresorcinol with isopropanol and n-butanol as co-solvents, available from Momentive Performance Materials), with at least one silylating agent, e.g., hexamethyldisilazane (HMDZ), which results in a modified thermally curable silicone resin, that when coated and cured on a polymeric substrate, e.g., PC or PET, has improved crack resistance and adhesion when flexed.
- organoalkoxysilane e.g., AS4010 (which is a partial condensate of methyltrimethoxysilane, colloidal silica, and
- the aqueous/organic solvent silicone dispersion, component (a), is present in an amount that ranges from about 85 to about 99.9 weight percent and the silylating agent, component (b), is present in an amount that ranges from about 0.1 to about 15 weight percent of the heat curable silicone hardcoat composition.
- component (a), is present in an amount that ranges from about 95 to about 99 weight percent and, component (b), is present in an amount that ranges from about 1 to about 5 weight percent of the heat curable silicone hardcoat composition.
- component (a) is present in an amount that ranges from about 98 to about 99 weight percent and, component (b), is present in an amount that ranges from about 1 to about 2 weight percent of the heat curable silicone hardcoat composition.
- the present invention includes a process for making a heat curable silicone hardcoat compositions which comprises: (a) preparing an aqueous/organic solvent silicone dispersion containing colloidal silica and a partial condensate of at least one organoalkoxysilane, wherein the dispersion possesses a T 3 : T 2 ratio from about 0.4 to about 1.3; (b) adding at least one silylating agent; and, optionally, (c) cooling the aqueous/organic solvent silicone dispersion prior to adding the silylating agent to provide a heat curable silicone hardcoat composition.
- the invention provides a process for making heat curable silicone hardcoat compositions which comprises:
- step (a) Cooling the dispersion resulting from step (a) is necessary when the silylating agent(s) is highly reactive. For example, cooling is required when HMDZ is used as the silylating agent because of the rapid hydrolysis of HMDZ. In the case of silylating agents that are less hydrolytically sensitive, cooling may not be required.
- Accelerated curing of the silicone hardcoat compositions of the present invention can be performed with various catalysts. Suitable catalysts include carboxylate salts such as sodium acetate, potassium acetate, and tetra-n-butylammonium acetate, see e.g., U.S.
- fluoride salts such as tetraethylammonium fluoride and tetrabutylammonium fluoride, see e.g., EP 0576166Al.
- the content of the forgoing patents are herein incorporated by reference.
- Typical adhesion promoter suitable for addition to the heat curable silicone hardcoat composition of the invention include acrylic polyols, acrylate esters, polyester polyols, and the like as described in United States Patent Nos.5, 503, 935; 5,41 1,807 and 5,349,002, the contents of which are incorporated herein by reference.
- UV absorbers can be employed at levels from about 2 to about 20 weight percent of the total composition. Suitable UV absorbers are those which co-react with partial hydolyzate and are less likely to volatalize during the heat cure. Exemplary UV absorbers include 4-[gamma-(trimethoxysilyl)propoxy]-2-hydroxybenzophenone, 4-[gamma-(triethoxysilyl)propoxy]-2-hydroxybenzophenone, hydroxybenzophenone and benzotriazole serves as well as the triazine, cyanoacrylates and benzylidene malonates or their mixtures. According to another embodiment of the invention the UV absorber useful in preparing the heat curable silicone hardcoat composition is 2-[(triethoxysilyl)propyl]dibenzylresorcinol.
- ком ⁇ онентs such as hindered amine light stabilizers, antioxidants, dye, flow modifiers and leveling agents or surface lubricants can be used.
- Other colloidal metal oxides can be present at up to about 10% by weight of the aqueous/organic solvent dispersion with colloidal silica and include metal oxides such as, antimony oxide, cerium oxide, aluminum oxide, zinc oxide, and titanium dioxide.
- the resulting silicone hardcoat compositions can be applied to primed or unprimed polymeric substrates to produce composites upon cure of the silicone hardcoat composition exhibiting improved weatherability, flexibility and thermoformability.
- Suitable substrates include, for example, plastics (polycarbonate, polymethylmethacrylate, polyester, epoxy resins, melamine resins, polyurethane resins, polyimides, polyetherimides, polysulfones, etc.), metals, wood, paper, glass, ceramics, and ⁇ slates.
- plastics polycarbonate, polymethylmethacrylate, polyester, epoxy resins, melamine resins, polyurethane resins, polyimides, polyetherimides, polysulfones, etc.
- the silicone hardcoat composition are particularly well suited for use on aromatic thermoplastic substrates, such as, Lexan (R) polycarbonate of the General Electric Company and polyethyleneterephthalate which is available from various manufacturers.
- the coating composition can be applied onto the substrate by the well known methods such as spraying, dipping, roll coating and the like. It can be cured thermally at temperatures specifically ranging from about 70 0 C to about 150 0 C, more specifically from about 80 0 C to about 140 0 C and most specifically at about 130° C for specifically from about 1 to about 120 minutes and more specifically from about 10 to about 90 minutes, or by the use of infrared or microwave energy.
- Articles and/or composites made in accordance with the present invention can be used in applications, such as automotive headlamps, automotive body panels and decorative trim, plastic architectural glazing, protective films for automotive, architectural glass installations and the like.
- Examples 1 and 2 and Comparative Examples 1 and 2 were prepared as follows: Each example was prepared with lOOg of AS4010 solution (a partial condensate of methyltrimethoxysilane, colloidal silica, and silylated dibenzoresorcinol with isopropanol and n-butanol) that was cooled to less than 2O 0 C.
- AS4010 solution a partial condensate of methyltrimethoxysilane, colloidal silica, and silylated dibenzoresorcinol with isopropanol and n-butanol
- Examples 1 -2 were tested. F'x 4" strips of coated PET film were gently folded into teardrop shaped loops, coating side out, then pulled through a gap of known dimension (pinch gap). The pinch gap was decreased until the coating was observed to crack. The pinch gap, film thickness, and coating thickness were then used to calculate the percent strain at which the coating cracked (a.k.a "critical strain"). Critical strain results are presented in Table 2.
- TEOS is a tetrafunctional silane which increases the crosslink density. It is provided as an example to illustrate the effect of crosslink density on flexibility and cracking resistance. [0045] Table 2: Critical Strain to Crack for Silicone Hardcoat Formulations.
- Examples 3-7 and Comparative Examples 3-9 were prepared and applied to PET film as described above with AS4010 silicone hardcoat solution possessing various T 3 : T 2 ratios as displayed in Table 3.
- the coating solutions of Examples 3-7 and Comparative Examples 3-9 were also applied by flowcoating to 0.125" thick polycarbonate panels precoated with an acrylic primer.
- the coated polycarbonate samples were then allowed to stand for approximately 20 minutes at 20 0 C and 40% relative humidity to flash off the volatile solvents and cured at 125 0 C for 1 hour. After cooling the panels, abrasion resistance of the coating samples were measured using ASTM D1003/D1044 (Taber Abrasion).
- the PET coated Examples 3-7 and Comparative Examples 3-9 were subjected to critical strain analysis and the PC coated Examples 3-7 and Comparative Examples 3-9 underwent Taber abrasion studies. The results are presented in Table 4.
- Table 3 Various AS4010 Coating Solutions Modified with HMDZ (T 3 : T 2 ratio measurements were made prior to addition of HMDZ).
- Table 4 illustrates the effect of silane treatment of hardcoat resin on critical strain to crack.
- the data demonstrates that the addition of HMDZ to the AS4010 hard coat resin solutions applied to PET film improves critical strain while reducing the aging period (e.g., see Examples 3 and 4 and Comparative Example 5 and Example 6).
- Comparative Example 10 was prepared as follows: To a 35OmL glass reaction vessel was charged 164.5g of methyltrimethoxysilane and 4.0g of acetic acid and agitation of the contents of the reaction vessel was started. The mixture was cooled for 10 minutes to a temperature of 2O 0 C, after which 5.4 g of hexamethyldisilazane (HMDZ) was quickly added to the contents of the reaction vessel. Immediately after the addition of HMDZ a mild exotherm was observed and the reaction mixture temperature rose to approximately 25 0 C. In addition, the solution in the reactor became cloudy and a white crystalline solid formed on the walls of the reaction vessel and the mixture became cloudy.
- HMDZ hexamethyldisilazane
- reaction vessel The contents of the reaction vessel were isolated to yield 295.Og (95.8% yield) of reaction product.
- the sample was shaken well and allowed to stand until it had a T 3 :T 2 of 0.90. A total of 534.6g of coating solution was prepared.
- Comparative Example 10 coating solution was then applied to PET film and Polycarbonate panels in the same manner described herein above. Data from critical strain testing (i.e., PET coated) and Taber abrasion testing (i.e., PC coated) are displayed in Table 5.
- Comparative Example 11 was prepared as follows: To a 35OmL glass reaction vessel was charged 164.5g of methyltrimethoxysilane and 4.0g of acetic acid and agitation of the contents of the reaction vessel was started. The mixture was cooled for 10 minutes to a temperature of 20°C, after which 16.2g of phenyltriethoxysilane was quickly added to the contents of the reaction vessel. A mixture of 101.6g of Ludox AS40 colloidal silica and 30.4g of deionized water was then added to the reaction vessel over a period of 15 minutes. Within 5 minutes of the start of the addition of the colloidal silica / water mixture an exotherm was observed that raised the temperature of the reaction mixture to approximately 24 0 C.
- Comparative Example 11 coating solution was then applied to PET film and Polycarbonate panels in the same manner described herein above. Data from critical strain testing and Taber abrasion testing are displayed in Table 5.
- Comparative Example 12 was prepared as follows: To a 35OmL glass reaction vessel was charged 164.6g of methyltrimethoxy silane and 4.Og of acetic acid and agitation of the contents of the reaction vessel was started. The mixture was cooled for 10 minutes to a temperature of 2O 0 C. A mixture of 101.7g of Ludox AS40 colloidial silica and 30.4g of deionized water was then added to the reaction vessel over a period of 15 minutes. Within 5 minutes of the start of the addition of the colloidal silica / water mixture an exotherm was observed that raised the temperature of the reaction mixture to approximately 24°C. The reaction mixture cooled back to 2O 0 C within 60 minutes and the mixture was allowed to continue to stir for approximately 20 hours.
- reaction vessel The contents of the reaction vessel were isolated to yield 293.8g (97.7% yield) of reaction product.
- reaction product 88.5g of n-butanol, 88.5g of iso-propanol, 18.4g of acetic acid and 48.3g of a 32wt% 2-(triethoxysilylpropyl)-4,6-dibenzylresorcinol in l-methoxy- 2-propanol.
- Comparative Example 9 was shaken well and allowed to stand until it had a T 3 /T 2 of 0.93. A total of 537.5g of Comparative Example 12 coating solution was prepared.
- Comparative Example 12 coating solution was then applied to PET film and Polycarbonate panels in the same manner described herein above. Data from critical strain testing and Taber abrasion studies are displayed in Table 5.
- Example 1 Comparison of the critical strain data from Table 2, (wherein the silylating agent was added to apre-made resin solution, i.e., AS4010), and Table 5 (wherein the silylating agent was added to a mixture of silane monomers before the addition of the pre-made resin) illustrates that the timing of the addition of the silylating agent is critical to the invention.
- Example 1 and Comparative Example 10 have the same HMDZ content (1%), however, the addition of the HMDZ to the preformed resin solution in Example 1 results in significantly improved flexibility performance (critical strain 3.3%) in contrast to addition of the HMDZ to the resin monomer prior to resin formation (critical strain of only 1.7%).
Abstract
Description
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Priority Applications (8)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PL08742019T PL2134769T3 (en) | 2007-03-05 | 2008-03-04 | Flexible thermal cure silicone hardcoats |
MX2009009400A MX2009009400A (en) | 2007-03-05 | 2008-03-04 | Flexible thermal cure silicone hardcoats. |
JP2009552710A JP5923235B2 (en) | 2007-03-05 | 2008-03-04 | Flexible thermosetting silicone hard coat |
EP08742019.6A EP2134769B1 (en) | 2007-03-05 | 2008-03-04 | Flexible thermal cure silicone hardcoats |
ES08742019.6T ES2546818T3 (en) | 2007-03-05 | 2008-03-04 | Flexible thermally cured flexible silicone coatings |
KR1020097018639A KR101486812B1 (en) | 2007-03-05 | 2008-03-04 | Flexible thermal cure silicone hardcoats |
CN2008800140565A CN101687994B (en) | 2007-03-05 | 2008-03-04 | Flexible thermal cure silicone hardcoats |
BRPI0808561-7A2A BRPI0808561A2 (en) | 2007-03-05 | 2008-03-04 | FLEXIBLE THERMAL CURED SILICON HARD COATINGS |
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US11/713,888 US7857905B2 (en) | 2007-03-05 | 2007-03-05 | Flexible thermal cure silicone hardcoats |
US11/713,888 | 2007-03-05 |
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CN (1) | CN101687994B (en) |
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Also Published As
Publication number | Publication date |
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EP2134769B1 (en) | 2015-08-12 |
US7857905B2 (en) | 2010-12-28 |
KR20100014928A (en) | 2010-02-11 |
CN101687994A (en) | 2010-03-31 |
BRPI0808561A2 (en) | 2014-08-19 |
CN101687994B (en) | 2012-11-21 |
PL2134769T3 (en) | 2016-01-29 |
MX2009009400A (en) | 2009-10-07 |
KR101486812B1 (en) | 2015-01-28 |
ES2546818T3 (en) | 2015-09-28 |
US20080217577A1 (en) | 2008-09-11 |
JP2010520362A (en) | 2010-06-10 |
JP5923235B2 (en) | 2016-05-24 |
EP2134769A1 (en) | 2009-12-23 |
HUE026143T2 (en) | 2016-05-30 |
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