A method for manufacturing ultra-high-density ultra-high-strength plant fiberboard

A plant fiber, ultra-high-strength technology, used in the manufacture of tools, flat products, pretreatment of molding materials, etc., can solve the problems of lack of large-diameter logs, low utilization rate of raw materials, low efficiency, etc., and achieve excellent mechanical properties. and water resistance, promoting production efficiency and transformation and upgrading, and improving the effect of physical and mechanical properties

Active Publication Date: 2020-04-21
INST OF WOOD INDUDTRY CHINESE ACAD OF FORESTRY
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Problems solved by technology

[0004] At present, in the production of ultra-high-density fiberboard, the patent CN 102275198 A (a preparation method of anti-folding board, application number: 201110226853.3) discloses a method of making fibers from biological waste, and then gradually adding 78- 89% phenolic resin adhesive, prepared with a density of 1.45g / cm 3 High-density boards, the patent uses the spraying method, the adhesive can only be evenly distributed on the surface of the fiber, and cannot enter the internal pores of the fiber at all, which cannot solve the problem of stress concentration caused by the internal pores of the fiber, and cannot improve the mechanical properties of the product, and the patent The physical and mechanical properties of the product have not been announced
Patent CN 101934548 A (a wood-based panel and its preparation method, application number: 201010250879.7) discloses a wood-based panel prepared by impregnating an adhesive with a density of 0.6-2.5g / cm 3 , the static bending strength is 30-75MPa, the water absorption thickness expansion rate is 8%, and the raw material is a fixed-thickness sheet unit instead of fiber, which leads to the limitation of lack of large-diameter logs in production, the raw material utilization rate is not high, and fixed The thick sheet unit impregnation process cannot achieve continuous and automatic production, and the efficiency is extremely low
[0005] Therefore, it is impossible to continuously and automatically produce fiberboard with ultra-high density and excellent mechanical properties by using the existing wood-based panel equipment and technology. At the same time of microstructure, it also improves the comprehensive utilization rate of wood materials, and produces ultra-high-density, ultra-high-strength fiberboard with excellent physical and mechanical properties. Through supply-side reform, it promotes the transformation and upgrading of the fiberboard industry

Method used

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  • A method for manufacturing ultra-high-density ultra-high-strength plant fiberboard
  • A method for manufacturing ultra-high-density ultra-high-strength plant fiberboard
  • A method for manufacturing ultra-high-density ultra-high-strength plant fiberboard

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Experimental program
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Effect test

Embodiment 1

[0063] Pave the wood fiber, and then use a cold press to pre-press it into a slab, and then add a low-concentration adhesive (20% aqueous solution of urea-formaldehyde resin, and add a phosphorus-based flame retardant whose mass is 20wt.% of the mass of urea-formaldehyde resin ) solution evenly (sprinkling amount is 3 times of the wood fiber mass) onto the wood fiber blank, and then the blank is sent to the cold press for 1 degumming in the way of "pressurization-pressure release". The liquid enters the surface and inside of the wood fiber, and the glue content of the degummed fiber accounts for 17wt.% of the fiber amount; then the degummed fiber is sent into the airflow drying chamber to dry the degummed fiber, and the moisture content of the dried fiber is 5wt.%. Send into paving machine again and it is paved into slab, now the gluing amount of wood fiber is 17%, and this slab is pressed into composite board with a flat plate hot press. The pressing temperature of the compos...

Embodiment 2

[0065] The wood fiber is paved, and then pre-pressed into a slab with a cold press, and then a low-concentration adhesive (a melamine resin aqueous solution with a concentration of 30%) is added, and a nitrogen-based flame retardant whose mass is 15wt.% of the melamine resin is added. ) evenly sprayed (sprinkling amount is 3 times the mass of wood fiber) onto the wood fiber blank, and then sent the blank into the cold press for degumming once by using the "pressure-relieving" method. During this process, the glue Enter the wood fiber surface and inside, the glue content of the fiber after degumming accounts for 25wt.% of the fiber amount; then send the degummed fiber into the airflow drying chamber to dry the fiber after degumming, the moisture content of the fiber after drying is 5wt.%, and then send Put it into a paving machine and pave it into a slab. At this time, the glue-dipping amount of the wood fiber is 25%, and the slab is pressed into a composite board with a flat-pl...

Embodiment 3

[0067]Pave the wood fiber, then pre-press it into a slab with a cold press, and then apply a low-concentration adhesive (an isocyanate organic solution with a concentration of 40%, and add a phosphorus-based flame retardant whose mass is 30wt.% of the isocyanate mass) Sprinkle evenly (the amount of spraying is 3 times the mass of wood fiber) on the wood fiber blank, and then send the blank into the cold press for degumming once by "pressurization-pressure release". During this process, the glue enters On the surface and inside of the wood fiber, the glue content of the fiber after degumming accounts for 35wt.% of the fiber amount; The paving machine paved it into a slab. At this time, the amount of glue dipping of the wood fiber was 35%, and the slab was pressed into a composite board with a flat-plate hot press. The pressing temperature of the composite plate is 120°C, the pressing pressure is 2MPa, the pressing time is 0.5min per mm of plate thickness, and the density of the...

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Abstract

The invention relates to a manufacturing method of an ultrahigh-density and ultrahigh-intensity plant fiber board. The manufacturing method comprises the following steps: by taking dry plant fiber as a raw material, preparing gum-containing fiber by adopting continuous processes of "cold prepressing for assembling, spraying of gum liquid, cold high pressure breathing degumming and air flow drying", and directly putting the gum-containing fiber into high-temperature and high-pressure equipment for high-temperature and high-pressure curing, thus obtaining the ultrahigh-density and ultrahigh-intensity plant fiber board. For the obtained fiber board, the density is more than 1.1 g / cm<3>, the static bending intensity is more than 70 MPa, the elastic modulus is more than 7 GPa, the thickness swelling rate of water absorption is less than 5 percent, and the water absorption rate is less than 5 percent; and a new idea is provided for solving the phenomenon of homogenization among fiber board products in China and expanding new application of plant fiber materials. The manufacturing method promotes continuous production of the ultrahigh-intensity plant fiber board, also promotes application of the plant fiber board in high-additional-value fields of building ornaments and interior trim parts in airplanes and G-series high-speed trains, and promotes greening development of composite materials.

Description

technical field [0001] The invention relates to a manufacturing method of ultra-high-density and ultra-high-strength plant fiber boards. The ultra-high-density and ultra-high-strength fiber boards are prepared by using the continuous process of "pre-cold pressing blanks-glue spraying-cold high-pressure degumming-airflow drying" , the density of the composite board is greater than 1.10g / cm 3 , the static bending strength is greater than 70MPa, and the elastic modulus is greater than 7GPa. The invention can promote the application of plant fiber boards in high value-added fields such as aircraft and high-speed rail interior parts, building curtain walls, etc., promote the green development of composite materials, and provide solutions for solving the homogeneity phenomenon among fiber board products in my country and expanding new uses of plant fiber materials. new ideas. Background technique [0002] In recent years, my country's medium and high density fiberboard industry h...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B27N3/08B27N3/12B27N1/02B27N3/18
CPCB27N1/02B27N1/0209B27N3/08B27N3/12B27N3/18
Inventor 唐启恒郭文静
Owner INST OF WOOD INDUDTRY CHINESE ACAD OF FORESTRY
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