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Production method of wood-plastic floor

A technology for wood-plastic floor and preparation steps, which is applied in the field of wood-plastic floor preparation, can solve the problems of poor water resistance and wear resistance, shortened service life, high rigidity, etc., and achieves hard breaking, warping and long service life. Effect

Inactive Publication Date: 2017-05-10
梅庆波
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The technical problem to be solved by the present invention: Aiming at the problems that the traditional wood-plastic floor is relatively rigid, easy to break, poor in water resistance and wear resistance, and shortens its service life, a modified cellulose polymerized with flexible monomer is provided. , method for preparing wood-plastic floor with mineral fiber as reinforcing component

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0018] First, weigh 2kg of hollyhock stalks, put them into a pulverizer, and pass them through a 100-mesh sieve. Inoculate Phanerochaete sporogenes into the fermenter, seal and ferment at 45°C for 6 days, heat up to 100°C after fermentation, stir and sterilize for 15 minutes, collect the materials in the fermenter, filter, and collect the filter residue to obtain pretreated hollyhock fiber Get 30g of above-mentioned pretreated hollyhock fibers and join in the four-necked flask with thermometer and reflux device again, and the flask is placed in the water bath, then add 400mL acetone and 5g propylene oxide in the flask, and pass into nitrogen protection After stirring and reacting at 70°C for 3h, add 3g of ammonium persulfate, after stirring for 10min, raise the temperature to 90°C, then add 15g of ethyl acrylate dropwise, control the dropwise addition for 15min, stir for 3h, the reaction is over, filter and collect Filtrate, obtain ethyl acrylate grafting modified cellulose po...

example 2

[0021]First, weigh 1kg of hollyhock straw, put it into a pulverizer, and pass it through a 90-mesh sieve. Inoculate Phanerochaete sporogenes into the fermenter, seal and ferment at 35°C for 5 days, heat up to 97°C after fermentation, stir and sterilize for 12 minutes, collect the materials in the fermenter, filter, and collect the filter residue to obtain pretreated hollyhock fiber Get 25g of the above-mentioned pretreated hollyhock fibers and join in a four-necked flask with a thermometer and a reflux device, and place the flask in a water bath, then add 350mL of acetone and 4g of propylene oxide in the flask, and feed into the nitrogen protection After stirring and reacting at 65°C for 2h, add 2g of ammonium persulfate, stir for 6min, then raise the temperature to 85°C, then add 12g of ethyl acrylate dropwise, control the dropwise addition for 10min, stir for 2h, and when the reaction is over, filter and collect Filtrate, obtain ethyl acrylate grafting modified cellulose pol...

example 3

[0024] First, weigh 2kg of hollyhock stalks, put them into a pulverizer, and pass them through a 90-mesh sieve. Phanerochaete sporogenes were inoculated into the fermenter, sealed and fermented at 40°C for 6 days, after fermentation, the temperature was raised to 97°C, stirred and sterilized for 12 minutes, the materials in the fermenter were collected, filtered, and the filter residue was collected to obtain pretreated hollyhock fiber Get 25g of the above-mentioned pretreated hollyhock fibers and join in a four-necked flask with a thermometer and a reflux device, and place the flask in a water bath, then add 350mL of acetone and 4g of propylene oxide in the flask, and feed into the nitrogen protection After stirring and reacting at 65°C for 2h, add 2g of ammonium persulfate, stir for 7min, then raise the temperature to 85°C, then add 12g of ethyl acrylate dropwise, control the dropwise addition for 12min, stir for 2h, and when the reaction is over, filter and collect Filtrate...

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Abstract

The invention relates to a production method of a wood-plastic floor and belongs to the technical field of production of floors. The method comprises the following steps: firstly taking abelmoschus manilhot straws as raw materials, carrying out microbial degradation modification treatment on the abelmoschus manilhot straws to obtain pre-treated abelmoschus manilhot fibers, degrading lignin via phanerochaete chrysosporium, increasing the content of cellulose, modifying the cellulose, improving the strength of the cellulose, enhancing adhesion force between the cellulose and the plastic, then modifying the cellulose by using an ethyl acrylate flexible material, improving brittleness of the cellulose, then enabling the materials such as polyvinyl chloride resin and zinc stearate and the like to react and obtain a resin mixed solution, and finally mixing and thermally pressing the resin mixed solution with the materials such as home-made slurry to obtain the wood-plastic floor. Sodium methyl silicate can form a waterproof film on the surface of the floor, so that the water resistance of the floor can be improved. The produced wood-plastic floor is low in possibility of breakage and high in abrasion resistance; the service life of the wood-plastic floor is prolonged.

Description

technical field [0001] The invention relates to a preparation method of a wood-plastic floor, which belongs to the technical field of floor preparation. Background technique [0002] At present, in the field of decoration, indoor floor covering materials are generally various wooden floors or composite wood floors. The wooden floor feels more comfortable to the feet, but it is easy to absorb water and swell or dry and deform. During use, problems such as shrinkage, expansion deformation, warping, and cracking often occur, and it requires a large amount of wood. Use will destroy forests and is not sustainable. Composite wood flooring is mainly a kind of floor formed by mixing and extruding wood chips, adhesives and other additives. Its surface is rich in color and low in cost, but it has problems such as easy water absorption and deformation. Formaldehyde seriously endangers human health and is not environmentally friendly. Wood-plastic floor is a new type of floor produce...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L27/06C08L51/02C08L1/02C08K13/02C08K3/34C08K5/098C08K5/11C08K3/26C08K3/22C08F251/02C08F220/18
CPCC08F251/02C08L27/06C08L2205/03C08L2205/16C08L51/02C08L1/02C08K13/02C08K3/34C08K5/098C08K5/11C08K2003/265C08K2003/2227C08F220/18
Inventor 梅庆波薛荣飞孟中立
Owner 梅庆波