TH114205A - Fluoropolymer Compound Coatings for Hard Materials - Google Patents

Abstract

DC60 (10/12/52) A fluoropolymer coating composition that may be applied over one or more primers and / or intermediate coatings in a non-stick coating system. The coating composition may Was prepared and used as a liquid dispersant And includes components that are fluoropolymer At least one of its kind Such as polytetrafluoroethylene (PTFE) and especially polytetra. High molecular weight fluoroethylene (HPTFE) additional coating elements include: Fluoropolymer Composition Compound fluoropolymer is a mixture of at least one low molecular weight PTFE (LPTFE) and a fluoropolymer that has undergone a smelting process. At least one of a kind After using directly to the material or Above the lower coating, the coating shows better abrasion and scratch resistance. As well as better release characteristics compared to known coatings that include only HPTFE or HPTFE with a small amount of fluoropoene. Polymer that can be fused.

Claims (1)

Disclaimer (all) which will not appear on the advertisement page. : ------ 19/12/2017 ------ (OCR) Page 1 of 4 pages Disclaimer 1. Composition Fluoropolymer coatings That includes: The fluoropolymer base components appear in amounts of between 30% weight and 96% weight based on the overall solid weight of the fluoropolymer. All in Such coating elements, fluoropolymer components The bass that composes Include at least one fluoropolymer, including high molecular weight polytetrafluoroethylene (HPTFE), in the form of a water-based dispersant. Have at least 500,000 average molecular weight (Mn); And mixed fluoropolymer compositions appear in amounts of between 4% wt and 70% wt, based on the total solid weight of all fluoropolymer in Such coating elements, fluoropolymer compositions such as: at least one low molecular weight polytetrafluoroethylene (LPTFE) as Of aqueous dispersion and an initial melting temperature (T) of 335 ° C or less; And at least one fusible fluoropolymer (MPF) Selected from Group consisting of Perfluoroalcoxi (PFA), fluoronate ethylene propylene (FEP), ethylfluoroalcoxi (EFA) and methyl. Fluoro-alkoxi (MFA), in which the fluoropolymer passes At least one of the above fusible processes (MPFs) is in the form of a water dispersion. 2. Coating composition of claim 1, where the fluoropolymer constitutes a liquid dispersant. The merbases appear in amounts of between 60% weight and 96% weight and composition. The fluoropolymer blends are present in amounts of between 4% wt and 40% wt, based on the total solid weight of all fluoropolymers in the coating composition. 3. Coating composition of claim 1 or claim 2, where polytetra At least one eye molecular weight fluoroethylene (LPTFE) appears in amounts between 2% weight and 15% wt, and the fused fluoropolymer. At least one such type (MPF) appears in amounts of between 2% wt and 15% wt, based on the total solid weight of all fluoropolymers in the coating composition. Say 4. Coating composition of any one of the previous claims Where fluoropoly At least one of the smelted alloys consists of perfluoroalcoxi (PFA) present in amounts between 20% weight and 85% wt. Page 2 of number 4, the total solid weight of the said fluoropolymer in the said fluoropolymer composition 5. Coating composition of claim 4, where Fluoropolymer that has passed At least one such melting process consists of perfluoroalcoxi (PFA), which appears in amounts between 37% wt and 65% wt, based on weight. The total solids of such fluoropolymer in the said fluoropolymer composition. 6. Coating composition of any of the preceding claims. Where Polytetra At least one ocular molecular weight fluoroethylene (LPTFE) has an average particle size of Choose from a group containing 0.9 microns (micrometers) or less, 0.75 microns (micrometers) or less, 0.5 microns (micrometers) or less, 0.4 microns (micrometers) or less, 0.3 microns (micrometers) or less. , And 0.2 microns (μm) or less. 7. Coating composition of any of the preceding claims. Where Polytetra At least one such ocular molecular weight fluoroethylene (LPTFE) had the first melting temperature (Tm) selected from a group containing 332 ° C or less, 330 ° C or less, 329. 8 ° C or less, 328 ° C or less, 327 ° C or less, 326 ° C or less, and 325 ° C or less. 8. Coating composition of any of the preceding claims. Where Polytetra At least one eye molecular weight fluoroethylene (LPTFE) was selected from a group consisting of: LPTFE obtained through emulsion polymerization and was not taken. Into aggregation, thermal decay, or radiation And have an average particle size of 1.0 microns (micrometers) or less; LPTFE micro-powders obtained through emulsion polymerization with or without a reduction step. Subsequent molecular weight; And the LPTFE micro-powders obtained through polymerization of the suspended solids with or without Subsequent molecular weight reduction steps. 9. Coating composition of any one of the previous claims. Where Polytetra At least one of these high molecular weight fluoroethylene (HPTFE) includes monomers. Co-modified in an amount less than 1% weight based on the weight of polytetrafluoroethylene. Such high molecular weight (HPTFE) page 3 of the number 4 Page 1 0. Coating composition of any of the preceding claims. Where fluoropoly At least one fusible polymer (MPF) has an average particle size of 1.0 microns (μm) or less than 1. 1. Methods of coating materials. The steps include: arrangement of a solid substrate; Hard substrates are coated with a composition containing a dispersant that is Water of at least one high molecular weight polytetrafluoroethylene (HPTFE) that It has an average molecular weight (Mn) of at least 500,000 and which appears in a volume between 30% wt and 96% wt by the total solid weight of fluor. All rotolymers in the composition of such coatings; At least one low molecular weight polytetrafluoroethylene (LPTFE) aqueous dispersant with mass mean molecular weight (Mn) less than 500,000; And at least one fluoropolymer fusible dispersant (MPF). Which were selected from the groups that consisted of Perfluoroalcoxi (PFA), fluoronate ethylene propylene (FEP), ethylfloroalcoxi (EFA) and methylf. Fluoralcoxy (MFA), and its refining elements to form coatings 1 2. Method of claim 11, where the fluoropolymer constitutes At least bass One such species appears in amounts of between 60% wt and 96% wt, and at least one such type of molecular weight polytetrafluoroethylene (LPTFE) and fluoroposol. Lee At least one of these fusible ments (MPFs) appear together in amounts between 4% wt and 40% wt as compared to the fluoropoly total solids. All polymers in the coating 1 3. Method of claim 11 or claim 12, where polytetrafluoroethylene is used in the form of polytetrafluoroethylene. At least one ocular molecular weight (LPTFE) appears in amounts of between 2% wt and 15% wt and at least one fusible fluoropolymer (MPF). Said it appears in the amount of between 2% weight and 15% weight based on The total solid weight of all fluoropolymers in such coatings 1 4. Method of any one of claims 11 through 13, where the fluoropolymer is past At least one of these fusible processes (MPFs) consists of perfluoralcoxi (PFA) present in amounts between 20% wt and 85% wt. At least one such low molecular weight polytetrafluoroethylene (LPTFE) and fusible fluoropolymer (MPF). 4 pages of a total of 4 pages of one such kind At least one of the above fused fluoropolymers (MPF) is optional. Perfluoroalcoxi (PFA) appears in amounts between 37% wt and 65% wt as compared to the overall solid weight of the polite. At least one of these eye molecular weight trifluoroethylene (LPTFE) and at least one of the fused fluoropolymer (MPF) 1 5 Methods of any one of Claims 11 through 14, where the coating has various properties One or more, selected from a group consisting of: (a) a contact angle of at least 110 degrees, (b) measured luster, at least 25% reflection at 60 degrees, and (c) roughness of Surface (Ra) of less than 100 nm 1 6. Hard substrate coated with any of the elements of Claim 1 to 10 1. 7. Hard substrate coated by method. Clause 11 to 15 ------------ ------ 19/12/2017 ------ (OCR) Page 1 of number 4 pages. Disclaimer 1. Composition Fluoropolymer coating. That includes: The fluoropolymer base components appear in amounts of between 30% weight and 96% weight based on the overall solid weight of the fluoropolymer. All in Such coating elements, fluoropolymer components The bass that composes Include at least one fluoropolymer, including high molecular weight polytetrafluoroethylene (HPTFE), in the form of a water-based dispersant. Have at least 500,000 average molecular weight (Mn); And mixed fluoropolymer compositions appear in amounts of between 4% wt and 70% wt, based on the total solid weight of all fluoropolymer in Such coating elements, fluoropolymer compositions such as: at least one low molecular weight polytetrafluoroethylene (LPTFE) as Of aqueous dispersion and an initial melting temperature (T) of 335 ° C or less; And at least one fusible fluoropolymer (MPF) Selected from Group consisting of Perfluoroalcoxi (PFA), fluoronate ethylene propylene (FEP), ethylfluoroalcoxi (EFA) and methyl. Fluoro-alkoxi (MFA), in which the fluoropolymer passes At least one of the above fusible processes (MPFs) is in the form of a water dispersion. 2. Coating composition of claim 1, where the fluoropolymer constitutes a liquid dispersant. The merbases appear in amounts of between 60% weight and 96% weight and composition. The fluoropolymer blends are present in amounts of between 4% wt and 40% wt, based on the total solid weight of all fluoropolymers in the coating composition. 3. Coating composition of claim 1 or claim 2, where polytetra At least one eye molecular weight fluoroethylene (LPTFE) appears in amounts between 2% weight and 15% wt, and the fused fluoropolymer. At least one such type (MPF) appears in amounts of between 2% wt and 15% wt, based on the total solid weight of all fluoropolymers in the coating composition. Say 4. Coating composition of any one of the previous claims Where fluoropoly At least one of the smelted alloys consists of perfluoroalcoxi (PFA) present in amounts between 20% weight and 85% wt. Page 2 of number 4, the total solid weight of the said fluoropolymer in the said fluoropolymer composition 5. Coating composition of claim 4, where Fluoropolymer that has passed At least one such melting process consists of perfluoroalcoxi (PFA), which appears in amounts between 37% wt and 65% wt, based on weight. The total solids of such fluoropolymer in the said fluoropolymer composition. 6. Coating composition of any of the preceding claims. Where Polytetra At least one ocular molecular weight fluoroethylene (LPTFE) has an average particle size of Choose from a group containing 0.9 microns (micrometers) or less, 0.75 microns (micrometers) or less, 0.5 microns (micrometers) or less, 0.4 microns (micrometers) or less, 0.3 microns (micrometers) or less. , And 0.2 microns (μm) or less. 7. Coating composition of any of the preceding claims. Where Polytetra At least one such ocular molecular weight fluoroethylene (LPTFE) had the first melting temperature (Tm) selected from a group containing 332 ° C or less, 330 ° C or less, 329. 8 ° C or less, 328 ° C or less, 327 ° C or less, 326 ° C or less, and 325 ° C or less. 8. Coating composition of any of the preceding claims. Where Polytetra At least one eye molecular weight fluoroethylene (LPTFE) was selected from a group consisting of: LPTFE obtained through emulsion polymerization and was not taken. Into aggregation, thermal decay, or radiation And have an average particle size of 1.0 microns (micrometers) or less; LPTFE micro-powders obtained through emulsion polymerization with or without a reduction step. Subsequent molecular weight; And the LPTFE micro-powders obtained through polymerization of the suspended solids with or without Subsequent molecular weight reduction steps. 9. Coating composition of any one of the previous claims. Where Polytetra At least one of these high molecular weight fluoroethylene (HPTFE) includes monomers. Co-modified in an amount less than 1% weight based on the weight of polytetrafluoroethylene. Such high molecular weight (HPTFE) page 3 of the number 4 Page 1 0. Coating composition of any of the preceding claims. Where fluoropoly At least one fusible polymer (MPF) has an average particle size of 1.0 microns (μm) or less than 1. 1. Methods of coating materials. The steps include: arrangement of a solid substrate; Hard substrates are coated with a composition containing a dispersant that is Water of at least one high molecular weight polytetrafluoroethylene (HPTFE) that It has an average molecular weight (Mn) of at least 500,000 and which appears in a volume between 30% wt and 96% wt by the total solid weight of fluor. All rotolymers in the composition of such coatings; At least one low molecular weight polytetrafluoroethylene (LPTFE) aqueous dispersant with mass mean molecular weight (Mn) less than 500,000; And at least one fluoropolymer fusible dispersant (MPF). Which were selected from the groups that consisted of Perfluoroalcoxi (PFA), fluoronate ethylene propylene (FEP), ethylfloroalcoxi (EFA) and methylf. Fluoralcoxy (MFA), and its refining elements to form coatings 1 2. Method of claim 11, where the fluoropolymer constitutes At least bass One such species appears in amounts of between 60% wt and 96% wt, and at least one such type of molecular weight polytetrafluoroethylene (LPTFE) and fluoroposol. Lee At least one of these fusible ments (MPFs) appear together in amounts between 4% wt and 40% wt as compared to the fluoropoly total solids. All polymers in the coating 1 3. Method of claim 11 or claim 12, where polytetrafluoroethylene is used in the form of polytetrafluoroethylene. At least one ocular molecular weight (LPTFE) appears in amounts of between 2% wt and 15% wt and at least one fusible fluoropolymer (MPF). Said it appears in the amount of between 2% weight and 15% weight based on The total solid weight of all fluoropolymers in such coatings 1 4. Method of any one of claims 11 through 13, where the fluoropolymer is past At least one of these fusible processes (MPFs) consists of perfluoralcoxi (PFA) present in amounts between 20% wt and 85% wt. At least one such low molecular weight polytetrafluoroethylene (LPTFE) and fusible fluoropolymer (MPF). 4 pages of a total of 4 pages of one such kind At least one of the above fused fluoropolymers (MPF) is optional. Perfluoroalcoxi (PFA) appears in amounts between 37% wt and 65% wt as compared to the overall solid weight of the polite. At least one of these eye molecular weight trifluoroethylene (LPTFE) and at least one of the fused fluoropolymer (MPF) 1 5 Methods of any one of Claims 11 through 14, where the coating has various properties One or more, selected from a group consisting of: (a) a contact angle of at least 110 degrees, (b) measured luster, at least 25% reflection at 60 degrees, and (c) roughness of Surface (Ra) of less than 100 nm 1 6. Hard substrate coated with any of the elements of Claim 1 to 10 1. 7. Hard substrate coated by method. Any of any of the clauses 11 to 15 ------------ Amendment 11/08/2016 1. Fluoropolymer coating composition That includes: The fluoropolymer base components appear in amounts of between 30% wt and 96% wt, based on the total solid weight of all fluoropolymer in Such coating elements, fluoropolymer components The bass that composes Include at least one fluoropolymer, including high molecular weight polytetrafluoroethylene (HPTFE), as a water-based and heavy dispersant. The average molecule by number (Mn) is at least 500,000; And mixed fluoropolymer compositions appear in amounts of between 4% wt and 70% wt, based on the total solid weight of all fluoropolymer in Such coating elements, fluoropolymer compositions such as: at least one low molecular weight polytetrafluoroethylene (LPTFE) as a dispersant. One that is water and with an initial melting temperature (Tm) of 335 ° C or less; And at least one fusible fluoropolymer (MPF) Selected from Group consisting of Perfluoroalcoxi (PFA), fluoronate ethylene propylene (FEP), ethylfluoroalcoxi (EFA) and methyl. Fluoro-alkoxi (MFA), in which the fluoropolymer passes At least one of these fusible processes (MPFs) is in the form of a water-based dispersant. 2. Coating composition of claim 1, where the fluoropolymer constitutes a liquid dispersant. The above molybases appear in amounts of between 60% weight and 96% weight and composition. The fluoropolymer blends appear in amounts of between 4% wt and 40% wt, based on the total solid weight of all fluoropolymer in the aforementioned coating composition 3. The coating composition of claim 1 or claim 2, where polytetra At least one such type of low molecular weight fluoroethylene (LPTFE) appears in amounts between 2% wt and 15% wt and fusible fluoropolymer (MPF). At least one such type appears in amounts of between 2% wt and 15% wt, based on the overall solid weight of all fluoropolymers in the aforementioned coating composition. Any of the preceding claims Where fluoropoly At least one of the above-molten alloys consists of perfluoroalcoxi (PFA) present in amounts between 20% wt. And 85% wt. The total solid weight of the fluoropolymer in the aforementioned fluoropolymer composition 5. Coating composition of claim 4 where fluoropolymers Through At least one such melting process consists of perfluoralcoxi (PFA) that appears in amounts between 37% wt and 65% wt, based on weight. The total solids of such fluoropolymer in the said fluoropolymer composition. 6. Coating composition of any of the preceding claims. Where Polytetra At least one such low molecular weight fluoroethylene (LPTFE) has an average particle size of Choose from a group containing 0.9 microns (micrometers) or less, 0.75 microns (micrometers) or less, 0.5 microns (micrometers) or less, 0.4 microns (micrometers) or less, 0.3 microns (micrometers) or less. , And 0.2 microns (μm) or less. 7. Coating composition of any of the preceding claims. Where Polytetra At least one such type of low molecular weight fluoroethylene (LPTFE) had the first melting temperature (Tm) selected from a group containing 332 ° C or less, 330 ° C or less. Than, 329 ° C or less, 328 ° C or less, 327 ° C or less, 326 ° C or less, and 325 ° C or less. 8. Coating composition of any of the above. Hold previous rights Where Polytetra At least one such type of low molecular weight fluoroethylene (LPTFE) was selected from a group consisting of: LPTFE obtained through emulsion polymerization and was not precipitated. Bundles, thermal decomposition, or radiation And have an average particle size of 1.0 microns (micrometers) or less; LPTFE micro powders obtained through emulsion polymerization with or without a reduction step. Later molecular weight; And the LPTFE micro-powders obtained through polymerization of the suspended solids with or without Subsequent molecular weight reduction steps. 9. Coating composition of any of the preceding claims. Where Polytetra At least one such high molecular weight fluoroethylene (HPTFE) includes monomers. Co-modified in an amount less than 1% weight based on the weight of polytetrafluoroethylene. Lean high molecular weight (HPTFE) as mentioned 1 0. Coating composition of any of the preceding claims. Where fluoropoly At least one fusible polymer (MPF) has an average particle size of 1.0 microns (μm) or less than 1. 1. Methods of coating materials. The steps include: arrangement of a solid substrate; Hard substrates are coated with a composition containing a dispersant that is Water of at least one high molecular weight polytetrafluoroethylene (HPTFE) that It has an average molecular weight (Mn) of at least 500,000 and appears in a volume between 30% wt and 96% wt, based on the overall solid weight of All fluoropolymers in the composition of such coatings; At least one low molecular weight polytetrafluoroethylene (LPTFE) aqueous dispersant with amount mean molecular weight (Mn) less than 500,00; And at least one fluoropolymer aqueous dispersion (MPF). Which were selected from the groups that consisted of Perfluoroalcoxi (PFA), fluoronate ethylene propylene (FEP), ethylfluoroalcoxi (EFA) and methyl. Fluoro-alkoxi (MFA), and its refining elements to form coatings 1 2. Method of claim 11, where the fluoropolymer constitutes At least bass At least one such species appears in amounts of between 60% wt and 96% wt, and at least one such type of low molecular weight polytetrafluoroethylene (LPTFE) and fluoropolymer. At least one of the above fusible ments (MPF) appears together in amounts between 4% wt and 40% wt, based on the fluoropoly overall solid weight. All polymers in the coating 1 3. Method of claim 11 or claim 12, where polytetrafluoroethylene is used in the form of polytetrafluoroethylene. At least one such type of low molecular weight (LPTFE) appears in amounts of between 2% wt and 15% wt, and at least one such type of fusible fluoropolymer (MPF). They appear in amounts of between 2% wt and 15% wt, based on the total solid weight of all fluoropolymers in such coatings. 1 4. Method of any one of the claims. At 11 to 13, where the fluoropolymer passes At least one of these fusible processes (MPFs) consists of perfluoralcoxi (PFA) present in amounts between 20% wt and 85% wt. Total solid weight of at least one such low molecular weight polytetrafluoroethylene (LPTFE) and at least fusible fluoropolymer (MPF). most One such kind At least one of the above fused fluoropolymers (MPF) is optional. Perfluoroalcoxi (PFA) present in amounts between 37% wt and 65% wt, based on the overall solid weight of the poly. At least one such type of low molecular weight tetrafluoroethylene (LPTFE) and at least one of the fused fluoropolymer (MPF) 1 5 Method of any one of Claims 11 through 14, where the coating has various One or more, selected from a group consisting of: (a) a contact angle of at least 110 degrees, (b) measured luster, at least 25% reflection at 60 degrees, and (c) roughness of Surface (Ra) of less than 100 nm 1 6. Hard substrate coated with any of the elements of Claim 1 to 10 1. 7. Hard substrate coated by method. Any of any of the clauses 11 to 15 ------------------------------------ -------------- 1. Fluoropolymer coating composition Contains: The fluoropolymer base component was expressed in amounts of between 30% wt and 96% wt, based on the total solid weight of all fluoropolymer in Coating composition, such fluoropolymer components containing fluoropolymer One or more polymers, including high molecular weight polytetrafluoroethylene (HPTFE), with a mean molecular weight (Mn) amount of at least 500,000; And the mixed fluoropolymer composition was expressed in amounts of between 4% wt and 70% wt, based on the total solid weight of all fluoropolymer in Such coating elements, fluoropolymer compositions containing: one or more low molecular weight polytetrafluoroethylene (LPTFE). With temperature Initial melt (Tm) of 335 ° C or less; And at least one fusible fluoropolymer (MPF)