TH34005B - Thermoplastic elements processed by melting - Google Patents

Abstract

DC60 (09/09/52) This invention describes a 50-99.5% melt machinable thermoplastic composition consisting of a) 50-99.5% melt mouldable thermoplastic polymer. by weight and b) 0.5-50% by weight particulat polymer consisting of a resin compound of 50-100% by weight mono-containing MMA, the comonomer does not Saturated ethylene, at least 0-50% by weight, consisting of at least one alkyl acrylate or methacrylate and a copolymer cross-linked monomer. 0-10% by weight, with particles as large as 5 mm. The composition has a reduced surface gloss and may be useful in processing components for construction or in other applications requiring a low gloss finish. The invention also describes how the composition is made and how it is used, such as its use as a capstock material. This invention describes thermoplastic compounds that can be transformed by melting. It consists of a) 50-99.5% by weight smelting thermoplastic polymer and b) 0.5-50% by weight particule polymer, including Residue of Mono Mixture Amer containing 50-100% by weight of MMA, 0-50% by weight of at least ethylene unsaturated comonomers, including alkylacrylates or metha. One or more creatines and cross-linked monomers that are copolymerized by 0-10% by weight, with particles up to 5 mm in size. The mixture has a surface gloss. reduced and may be useful in making components for construction or other applications. which requires a low gloss surface The invention also describes the method of making the mixture and the use of the mixture, for example its use as a capstock material.

Claims (9)

Disclaimer (all) which will not appear on the advertisement page: 1. Method of preparing thermoplastic formable elements by changing By compounding method a) thermoplastic polymer that can be molded by 50-99.5% wt. B) acrylic partition. 0.5-50% by weight polymer, which is composed of a resistor of Mix monomers containing at least 50% by weight of methyl methamethacrylate (MMA), acrylonitrile at least 5% by weight. And less than 20% by weight, which is made up of at least one type of alkyl acrylate or alkyl methacrylate. Where acrylic The additional copolymer includes a cross-linked monomer that is at least 0.3% by weight to 1% by weight, with such particles as large as 5 mm. Mix a thermoplastic polymer that can be molded by melting. And acrylic partition copolymer are combined under In order to make the particles of the acrylic particle copolymer smaller. 2. Method according to claim 1, where the particles are the largest, which is less. 1 mm 3. Method according to claim 1 or 2, where at least 75% of the particles of such acrylic copolymer partitions have a size that can pass 300 μm. 4. Method for which the right to be held in any of the previous claims Where average size by weight The particle size of the acrylic particle copolymer is greater than 100 μm as measured in accordance with ASTMD1921. 5. Method to Claim 4 where the average size by weight of the particle of the part Such cubic acrylic copolymer is greater than 150 μm as measured in accordance with ASTM D1921. 6. Method as requested in any of the previous claims. Where average size by weight The particle size of such acrylic partition copolymer is less than 500 μm, notably less than 250 μm, as measured in accordance with ASTM D1921. 7. Method as requested in Any of the previous claims The acrylic comomer that can be copolymerized is alkyl acrylate 8. Method according to claim 7 where the alkyl acrylate The relate comonomer was selected from the group that Contains ethyl acrylate or butyl acrylate 9. Method as claimed in any of the preceding claims. Where the acrylic copolymer partitions contain acrylic At least 12% by weight, and less than 18% by weight 1 0. Method as requested in any of the previous claims. The acrylic copolymer partitions are formed from the resin of the monomer mixture. This includes at least 69% MMA with at least 79% methyl methacrylate by weight 1. 1. Method as requested in any of the previous claims. The acrylic copolymer partitions are formed from the resin of the monomer mixture. This includes less than 95% of the MMA by weight 1. 2. Method as requested by any of the previous claims. This includes at least 1% of the aforementioned acrylic particle copolymer by weight and less than 40% by weight 1 3. Method of claim 12 including part. 3 to 15% of such cubic acrylic copolymer by weight 1 4. Method as requested in any of the preceding claims. Where at least 20% by weight of the particles of the polymer partition ranges between 60 (250 μm) and 80 (177 μm) mesh 1. 5. Methods as requested. In any of the previous claims Where the thermoplastic The polymer that can be modified through the formation of matrix and is polymethyl methacrylate homopolymer or copolymer obtained from Mixed monomers containing 60-100% wt methyl methacrylate and other copolymerized methacrylates or methacrylates. At least one type 0-40% by weight 1 6. Method as requested in any of the preceding claims. Where the polymer that can be shaped The melting and the aforementioned acrylic copolymer partitions were not cast after contact. 1 7. Method as requested in the previous claim. One of these Where the polymer that can be shaped By melting, and such acrylic particle copolymer were mixed by extrusion. Under the condition that the particle size of the polymer partition becomes smaller 1 8. The method as requested in one of the previous claims. Where the thermoplastic Polymer that can be modified by melting And such acrylic partition copolymer were mixed at Slash at least 100s 1 9. Methods as requested in any of the previous claims. Where the polymer that can be shaped By the melting and the acrylic polymer partition, the polymer was not chemically treated. During such mixing, 2 0. The thermoplastic elements are formed by melting. These include: a) thermoplastic that can be molded by 50-99.5% wt. B) acrylate partition copolymer 0.5-50% wt. Including the radiation of Mix monomers containing at least 50% by weight methyl methacrylate (MMA), acrylic copolymerized copolymer by at least 5% by weight. Less than 20% by weight, which is made up of at least one alkyl acrylate or alkyl methacrylate. Where acrylic Total copolymer added Add to at least 0.3% by weight to 1% by weight of the cross-linked monomer of the acrylic copolymerized partition. These sheets are greater than 100 μm and less than 250 μm as measured in accordance with ASTM D1921 2 1. Composition according to claim 20 where the thermoplastic polymer can be molded by melting. Forming matrix and polymethyl methacrylate A hypopolymer or copolymer obtained from mono mixtures. Methyl methacrylate 60-100% wt and alkyl acryl or methrylate At least one other type of copolymerization was 0-40% by weight 2 2. Composition according to claim 20 or 21, whereby the acrylic Such comometers are alkyl acrylate 2 3. Elements as requested in claim 22, wherein the alkyl acrylate comers are selected. From a group containing ethyl acrylate or butyl acrylate 2 4. Elements as requested in any of the 20 to 23 Claims Where the acrylic copolymer partitions contain acrylic At least 12% by weight, and less than 18% by weight. 2. 5. Elements as requested in any of 20 to 24 claims. The acrylic copolymer partitions are formed from the resin of the monomer mixture. This includes at least 69% MMA. The preferred weight is at least 79.9% MMA by weight 2. 6. The elements requested in any of 20 to 25 claims. Where at least 20% by weight of the particles of the polymer partition is between 60 (250 μm) and 80 (177 μm) mesh 2. 7. Composition as requested. In any of the 20 to 25 claims At least 75% of the particles of such acrylic copolymer partitions have a size that can pass 300 micrometers. 2. 8. Methods for preparing a suitable thermoplastic composition. Formed by forging as defined in any of the 20 to 27 Claims. By contact assembly method a) thermoplastic polymer that can be formed by melting 50-99.5% by weight and b) acrylic partition copolymer. 0.5-50% by weight, which includes the resin cue of the mixture. Monomers containing at least 50% by weight of methyl methacrylate (MMA), acrylic copolymerized at least 5% by weight and 20% less by weight With at least one alkyl acrylate or alkyl methacrylate Where acrylic Additional included copolymers To cross-linked monomers at the copolymerization of at least 0.3% by weight to 1% by weight with the average size by weight of the particle-weighted acrylic copolymer. The above 100 micrometers are less than 250 micrometers as measured in accordance with ASTM D1921 2. 9. Method of claim 28 where the polymer can be shaped by melting and partitions. Qlate acrylic copolymers were mixed together. By extrusion under the condition that the particles of the acrylic polymer particleboard become smaller. 3 0. Product-making method which consists of preparing thermoplastic compositions. Editable By melting as prepared in accordance with one of the claims 1 to 19 Or making them into elements Thermoplastic that can be molded by annealing as prepared in accordance with one of Clause 20 to 27. And forming thermoplastic elements that can be molded by annealing To form such a product 3 1. Method according to claim 30 wherein thermoplastic elements can be molded by melting. It is then subjected to a state which causes the particle of acrylic polymer partially in the thermoelectric element. The plastic that is reformed by melting it becomes smaller 3. 2. Procedure under Claim 28 to 31, any one Where the thermoplastic component By melting it was subjected to a shear rate of at least 100s 3. 3. Method according to one of the claims 30 to 32 Where such products include substrates and Stock material The stock material is composed of a thermoplastic component. Obtained by Fusion 3 4. Method for one of the claims 30 to 33 Where the product is a construction component 3 5. Procedures under one of the claims 30 to 34 Where the above products are used components In construction, it is a co-extrusion component consisting of a substrate made of PVC, HIPS or ABS, and a thermoplastic compound that can be fused. PO STOCK 3 6. Procedures under one of the claims 30 to 35. Where the surface of the product is made of The thermoplastic elements were subjected to a rigid resistance test according to ASTM D4266 with an average failure height of not less than 7.5 in. (19.05 mm) 3. 7. Procedures under one of the claims 30 to 36. Where the surface of the product is made of elements Such thermoplastics have a glossy surface finish. Measured at an observation angle of 75 (according to ASTM D3679) less than 65 3. 8. Products including substrates and stock materials prepared from thermoplastic components. When prepared in the method according to any of the Claims 1 to 19 Or as described in Claims 20 to 27, any of the above 3 9. Products according to claim 39 where the aforementioned layer of material thickness is less than 200 micrometers.