IPC분류정보
| 국가/구분 |
United States(US) Patent
등록
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| 국제특허분류(IPC7판) |
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| 출원번호 |
US-0525123
(1983-08-22)
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발명자
/ 주소 |
- Johnson Ronald E. (Tioga PA) Wu Lung-ming (Horseheads NY)
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| 출원인 / 주소 |
- Corning Glass Works (Corning NY 02)
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| 인용정보 |
피인용 횟수 :
28 인용 특허 :
1 |
초록
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There are disclosed thermoplastic inks in the nature of high viscosity, tacky pastes which exhibit high cohesive strength, high pressure sensitivity at low temperatures, high thermal stability and low affinity for silicone surfaces. These properties make the inks particularly useful in those printin
There are disclosed thermoplastic inks in the nature of high viscosity, tacky pastes which exhibit high cohesive strength, high pressure sensitivity at low temperatures, high thermal stability and low affinity for silicone surfaces. These properties make the inks particularly useful in those printing processes involving multiple elastomeric transfer members, in particular, those processes wherein silicone transfer members print successive colors onto a silicone collector which in turn transfers the multicolored print in a single step to ware or decal paper. The ink formulations consist essentially, in weight percent, of: (a) 50-80% of a pigmented, vitreous, inorganic flux; (b) 2-20% of a selected organic polymer; (c) 5-25% of a selected plasticizer; (d) 2-20% of a selected amorphous tackifying resin; and optionally, (e) up to 20% of an organic wax.
대표청구항
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A thermoplastic ink suitable for decorating glass, glass-ceramic, and ceramic articles by means of processes which utilize a silicone surface, said ink exhibiting high permanent pressure sensitivity at room temperature, thermal stability up to about 150°C., a low affinity to silicone surfaces, a vis
A thermoplastic ink suitable for decorating glass, glass-ceramic, and ceramic articles by means of processes which utilize a silicone surface, said ink exhibiting high permanent pressure sensitivity at room temperature, thermal stability up to about 150°C., a low affinity to silicone surfaces, a viscosity at 200°F. of about 100-1000 poises, as determined at a shear rate of 25 sec-1 with a Brookfield Thermosel viscometer, a tack value in excess of 600 grams, when measured with a Polyken probe tack tester at 75°F. and 50% relative humidity utilizing a 0.5 cm diameter probe, a contact pressure of 230 grams/cm2, a contact dwell period of 1 second, and a separation speed of 1 cm/second, a cohesive strength of sufficient magnitude such that, when the molten ink is applied between a glass, glass-ceramic, or ceramic and a silicone surface, the ink will remain essentially completely on the glass, glass-ceramic, or ceramic surface when the two surfaces are separated from each other after cooling to room temperature, and being prepared from a formulation consisting essentially, in weight percent, of: (a) about 50-80% of a vitrifiable, inorganic flux containing up to about 50% of inorganic pigments and opacifiers; (b) about 2-20% of an amorphous polymer and/or copolymer with an amorphous region with an average molecular weight between 10,000-200,000 wherein said polymer and/or copolymer is selected from the group of polyalkyl acrylate, polyalkyl methacrylate, polyalkyl acrylate or polyalkyl methacrylate or styrene copolymers with acrylic or methacrylic acid, cellulosic ethers, amorphous polyolefins, polyethers, and polyesters; (c) about 5-25% of a plasticizer compatible with said organic polymer and/or copolymer which enhances the level of tack, which has a low tendency to volatilize below 150°C., and has a molecular weight between 200-5000 selected from the group of alkylene glycol or glycerol esters of monocarboxylic acids, alkyl alcohol esters of mono-, di-, and tricarboxylic acids, polyesters of dicarboxylic acids and polyols, polyalkylene glycols, glyceryl triepoxy acetoxy stearate, polybutene, mineral oil, and epoxidized vegetable oils; (d) about 2-20% of an amorphous tackifying resin with an average molecular weight between 500-10,000 and a ring and ball softening point between 35°-115°C. selected from the group of hydrocarbon resins, terpenes, phenolics, rosin, and rosin derivatives; and, optionally, (e) up to about 20% of an organic wax having a melt point less than 100°C. and a low tendency to volatilize below 150°C.
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