CN201189739Y

CN201189739Y - Flax and plastic compound material board

Info

Publication number: CN201189739Y
Application number: CNU200820032508XU
Authority: CN
Inventors: 雷文
Original assignee: Nanjing Forestry University
Current assignee: Nanjing Forestry University
Priority date: 2008-02-15
Filing date: 2008-02-15
Publication date: 2009-02-04
Anticipated expiration: 2018-02-15

Abstract

The utility model provides a ramie plastics composite material plate, which relates to a composite material and environment-friendly material plate. The plate is applied to manufacture shelf plates and internal door plates of cars and planes in the traffic field, decorative plates, fences and hand rails in the architectural field, and trays and shelve in the packaging field. The ramie plastics composite material plate consists of two fibrilia modified plastic layers and a fibrilia cloth reinforcement plastic layer, wherein the fibrilia cloth reinforcement plastic layer is pressed between the two fibrilia modified plastic layers by a mould; the fibrilia modified plastic layers are formed by the mixing and the rolling of modified plastic particles, fibrilia and interface bulking agents; and the fibrilia cloth reinforcement plastic layer is formed by the mould-pressing of plastic particles and a plurality of layers of fibrilia cloth treated by silane couplers.

Description

A kind of kenaf-plastics composite plate

Technical field

What a kind of kenaf-plastics composite plate of the utility model related to is a kind of composite, environment-friendly material plate.Be applicable to the shelf plate of making the field of traffic such as the vehicles such as automobile, aircraft, door inner panel etc., the decorative panel of building field, fence, railing etc., the pallet of packaging field, shelf etc.

Background technology

In recent years, along with the enhancing of people's environmental protection consciousness, environmental friendliness, degradable, the recyclable demand of material of utilizing are more and more vigorous, and application is more and more wider.The fiberglass reinforced plastics composite (is commonly called as fiberglass, GRP) goods make it be able to extensive use because of light weight, specific strength advantages of higher, but exist simultaneously obviously not enough, as not degrading, recycle inconvenience, and glass fibre energy consumption is big etc. in process of production.So development of new fiber reinforced plastic composite material goods are very necessary.The natural plant fibre that comprises flaxen fiber, wood powder, agricultural crop straw has good degradability and environment friendly, is used to polymer compoundly more and more, and substitutes in many occasions and maybe can substitute GRP and use.In numerous natural fibers, flaxen fiber has higher mechanical property, thereby the potentiality of application are more arranged.But the same with other polymer matrix composite, in use there is aging phenomenon in kenaf-plastics composite, adds proper assistant and can improve its ageing properties, but tend to cause mechanical properties decrease.So, develop a kind of higher intensity that both had, the kenaf-plastics composite that has good anti ageing property again is very necessary.

Summary of the invention

The purpose of this utility model is to provide a kind of kenaf-plastics composite plate at above-mentioned weak point, and this sheet material degradable, recovery, easy-formation are processed, have higher mechanical strength, anti-aging, can be repeated the processing use.

A kind of kenaf-plastics composite plate takes following scheme to realize:

A kind of kenaf-plastics composite plate is made of two-layer fibrilia modified plastic layer, flaxen fiber cloth reinforced plastic layer, and mold pressing has flaxen fiber cloth reinforced plastic layer between two-layer fibrilia modified plastic layer.

Fibrilia modified plastic layer mixes calendering by modified plastics particle, flaxen fiber, interface bulking agent and forms.The modified plastics particle is formed by modified nano-titanium dioxide, antioxidant, plastic pellet mixing extruding pelletization.Modified nano-titanium dioxide is mixed with silane coupler by nano titanium oxide, and vacuum drying is made.

The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by plastic pellet and several layers silane coupler forms.

Described plastic pellet adopts a kind of in polyethylene, polypropylene, polystyrene, the polyvinyl chloride.

Described flaxen fiber adopts a kind of or its mixture in ramee, hemp, flax fiber, sisal fiber, the tossa.

Described flaxen fiber cloth adopts a kind of in ramee cloth, hemp cloth, flax fiber cloth, sisal fiber cloth, the tossa cloth.

Described interface bulking agent adopts a kind of in maleic anhydride inoculated polypropylene (MAPP), maleic anhydride grafted polyethylene, the maleic anhydride graft polystyrene;

Described antioxidant adopts a kind of among 1010 (A), the BHT.1010 (A) are four (β-(3, the 5-di-tert-butyl-hydroxy phenyl) propionic acid) pentaerythritol ester.BHT is 2, the 6-di-tert-butyl-4-methy phenol.

Described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane.

A kind of preparation method of kenaf-plastics composite plate, its preparation process is:

(1) silane coupler and water are mixed by mass ratio 1: 1～5, wherein water is solvent.

(2) silane coupler with nano titanium oxide and dilution mixes by mass ratio 100: 2～6, and under 40 ℃～80 ℃ temperature, the modified nano-titanium dioxide particle is made in vacuum drying 3～6 hours;

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 1～5, take by weighing silane coupler, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth is immersed in the silane coupler of dilute with water, soaks after 30～120 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 40 ℃～80 ℃ temperature, vacuum drying 3～6 hours;

(4) plastic pellet and modified nano-titanium dioxide particle, antioxidant are pressed mass ratio 100: 1～5: 0.5～2.0, mechanical mixture is even, uses the extruder extruding pelletization, and the extruding pelletization temperature is 140 ℃～200 ℃, obtains the modified plastics particle;

(5) 100: 1～20: 10～30 mechanical mixture are even above-mentioned modified plastics particle and interface bulking agent, flaxen fiber to be pressed mass ratio, roll into fibrilia modified plastic layer through calender then; Fibrilia modified plastic layer is 0.5～2mm, and flaxen fiber length is 0.5～10mm;

(6) place a fibrilia modified plastic layer in the bottom of compression molding mold cavity, lay plastic pellet on fibrilia modified plastic layer, put on the plastic pellet upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay plastic pellet on the above-mentioned flaxen fiber cloth of handling with silane coupler again, the flaxen fiber cloth mass ratio 100: 10～50 that plastic pellet and silane coupler were handled, the fibrilia modified plastic layer of lay one deck above plastic pellet more at last, matched moulds, preheating is after 5～10 minutes in 145 ℃～210 ℃ scopes, adopt the pressure compression molding of 5MPa～20MPa, make the kenaf-plastics composite plate.

The described flaxen fiber cloth of handling with silane coupler can be provided with several layers, and all lay has plastic pellet between every two-layer flaxen fiber cloth of handling with silane coupler.

The mold pressing between two-layer fibrilia modified plastic layer of the utility model kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by plastic pellet and several layers silane coupler forms.

The utility model kenaf-plastics composite plate is reasonable in design, and is simple in structure, and the kenaf-plastics composite plate is compared with fiberglass (GRP): recyclable usefulness again, can degrade, and energy consumption is low, and environmental friendliness can repeat processing and use.No toxic and harmful produces in the kenaf-plastics composite plate preparation process, and raw material is non-stimulated to human body skin.Machine equipment cleaning used in the production process is very convenient; Product density can be lower, reduces cost of transportation, also do not resemble the skin that the dust that produces the fiberglass (GRP) stimulates the people in the product cutting processing, and with short production cycle, 1～2 people can finish production, and the production of GRP then needs more people, so the production efficiency height; Fiberglass (GRP) also need add curing agent when producing, if the amount improper use of curing agent may cause the product failure, quality is wayward, and the kenaf-plastics composite plate this kind phenomenon can not occur.

The utility model kenaf-plastics composite plate is compared with traditional wood and plastic composite flitch, but ultraviolet resistance is aging, heat oxygen aging resistance, antibiotic, have mechanical strengths such as higher stretching, bending, impact, Young's modulus is higher, creep resistance is stronger.

Description of drawings

The utility model is described in further detail below with reference to accompanying drawing.

Fig. 1 is a kind of kenaf-plastics composite plate structure schematic diagram.

The specific embodiment

With reference to accompanying drawing 1, a kind of kenaf-plastics composite plate is made of two-layer fibrilia modified

plastic layer

1,3, flaxen fiber cloth plastic layer 2, and mold pressing has flaxen fiber cloth plastic layer 2 between fibrilia modified plastic layer 1 and fibrilia modified plastic layer 3.

Fibrilia modified

plastic layer

1,3 mixes calendering by modified plastics particle 4, flaxen fiber 5, interface bulking agent and forms.Modified plastics particle 4 is formed by nano titanium oxide, silane coupler, antioxidant, plastic pellet mixing extruding pelletization.

Flaxen fiber cloth 6 mold pressings that flaxen fiber cloth plastic layer 2 was handled by plastic pellet 7 and several layers silane coupler form.

Described flaxen fiber cloth adopts a kind of in ramee cloth, hemp cloth, sisal fiber cloth, flax fiber cloth, the tossa cloth.

Described flaxen fiber adopts a kind of or its mixture in ramee, hemp, sisal fiber, flax fiber, the tossa.

Embodiment 1: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(1) silane coupler and water were pressed mass ratio 1: 1, take by weighing silane coupler 1g, water 1g mixes, wherein water is solvent; Described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane;

(2) silane coupler of nano titanium oxide and dilution was pressed mass ratio 100: 2, the silane coupler 0.002kg that takes by weighing nano titanium oxide 0.1kg and above-mentioned dilution mixes, under 40 ℃ of temperature, the modified nano-titanium dioxide particle is made in vacuum drying 6 hours; Described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane;

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 1, take by weighing silane coupler 0.01kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 1kg is immersed in the silane coupler of dilute with water, soaks after 30 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 40 ℃ of temperature, vacuum drying 3 hours; Described flaxen fiber cloth adopts ramee cloth;

(4) vinyon particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 1: 0.5, take by weighing vinyon particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.1kg, antioxidant 1010 (A) 0.05kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 140 ℃, obtains the modified poly ethylene plastic pellet;

(5) above-mentioned modified poly ethylene plastic pellet and interface bulking agent, flaxen fiber were pressed mass ratio 100: 1: 10, take by weighing modified poly ethylene plastic pellet 10kg, interface bulking agent maleic anhydride grafted polyethylene 0.1kg, flaxen fiber 1kg, put into container, mechanical mixture is even, rolls into fibrilia modified vinyon layer through calender then; Fibrilia modified vinyon layer thickness is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts ramee;

(6) place a fibrilia modified vinyon layer in the bottom of compression molding mold cavity, lay vinyon particle on fibrilia modified vinyon layer, put on vinyon particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay vinyon particle on the above-mentioned flaxen fiber cloth of handling with silane coupler again, the fibrilia modified vinyon layer of lay one deck above the vinyon particle more at last, matched moulds, preheating is after 5 minutes under 145 ℃ of temperature, adopt the pressure compression molding of 5MPa, make the kenaf-plastics composite plate; Wherein the flaxen fiber cloth mass ratio handled of vinyon particle and silane coupler is 100: 10, takes by weighing the flaxen fiber cloth 1kg that vinyon particle 10kg, silane coupler handled.

The mold pressing between two-layer fibrilia modified vinyon layer of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by vinyon particle and silane coupler forms.

Above-mentioned after testing kenaf-plastics composite plate stretching intensity 35MPa, stretch modulus 3.6GPa, bending strength 71.6MPa, bending modulus 1.9GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 56%.

Embodiment 2: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(1) silane coupler and water were pressed mass ratio 1: 5, take by weighing silane coupler 5g, water 25g mixes, wherein water is solvent; Described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane;

(2) silane coupler of nano titanium oxide and dilution was pressed quality 100: 6, the silane coupler 0.03kg that takes by weighing nano titanium oxide 0.5kg and above-mentioned dilution mixes, and under 80 ℃ of temperature, the modified nano-titanium dioxide particle is made in vacuum drying 3 hours; Described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane;

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 5, take by weighing silane coupler 0.25kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 5kg is immersed in the silane coupler of dilute with water, soaks after 120 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 80 ℃ of temperature, vacuum drying 6 hours; Described flaxen fiber cloth adopts hemp cloth;

(4) polypropylene plastics particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 5: 2, take by weighing polypropylene plastics particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.5kg, antioxidant BHT 0.2kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 175 ℃, obtains the modified polypropylene plastic particle;

(5) above-mentioned modified polypropylene plastic particle and interface bulking agent, flaxen fiber were pressed mass ratio 100: 20: 30, take by weighing modified polypropylene plastic particle 10kg, interface bulking agent maleic anhydride inoculated polypropylene (MAPP) 2kg, flaxen fiber 3kg, put into container, mechanical mixture is even, rolls into the fibrilia modified polypropylene plastics bed of material through calender then; Fibrilia modified polypropylene plastics thickness of feed layer is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts hemp;

(6) place a fibrilia modified polypropylene plastics bed of material in the bottom of compression molding mold cavity, put the polypropylene plastics particle on fibrilia modified polypropylene plastics bed of material upper berth, put on polypropylene plastics particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay polypropylene plastics particle on the above-mentioned flaxen fiber cloth of handling with silane coupler, on the polypropylene plastics particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, lay polypropylene plastics particle on the flaxen fiber cloth of handling with silane coupler, on the polypropylene plastics particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, on the flaxen fiber cloth of handling with silane coupler, repave and put the polypropylene plastics particle, the fibrilia modified polypropylene plastics bed of material of lay one deck above the polypropylene plastics particle more at last, matched moulds, preheating is after 10 minutes under 175 ℃ of temperature, adopt the pressure compression molding of 20MPa, make the kenaf-plastics composite plate; Wherein the flaxen fiber cloth mass ratio handled of polypropylene plastics particle and silane coupler is 100: 50, takes by weighing the flaxen fiber cloth 5kg that polypropylene plastics particle 10kg, silane coupler handled.

The mold pressing between the two-layer fibrilia modified polypropylene plastics bed of material of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by polypropylene plastics particle and three layers of silane coupler forms.

Above-mentioned after testing kenaf-plastics composite plate stretching intensity 45MPa, stretch modulus 4.0GPa, bending strength 91.6MPa, bending modulus 2.1GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 61%.

Embodiment 3: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(1) silane coupler and water were pressed mass ratio 1: 1, take by weighing silane coupler 5g, water 5g mixes, wherein water is solvent; Described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane;

(2) silane coupler of nano titanium oxide and dilution was pressed mass ratio 100: 2, the silane coupler 0.01kg that takes by weighing nano titanium oxide 0.5kg and above-mentioned dilution mixes, under 40 ℃ of temperature, the modified nano-titanium dioxide particle is made in vacuum drying 6 hours; Described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane;

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 1, take by weighing silane coupler 0.05kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 5kg is immersed in the silane coupler of dilute with water, soaks after 30 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 40 ℃ of temperature, vacuum drying 6 hours; Described flaxen fiber cloth adopts sisal fiber cloth;

(4) igelite particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 5: 2, take by weighing igelite particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.5kg, antioxidant BHT 0.2kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 180 ℃, obtains the modified polyvinyl chloride plastic pellet;

(5) above-mentioned modified polyvinyl chloride plastic pellet and interface bulking agent, flaxen fiber were pressed mass ratio 100: 1: 10, take by weighing modified polyvinyl chloride plastic pellet 10kg, interface bulking agent maleic anhydride inoculated polypropylene 0.1kg, flaxen fiber 1kg, put into container, mechanical mixture is even, rolls into the fibrilia modified polyvinyl chloride plastic bed of material through calender then; Fibrilia modified polyvinyl chloride plastic thickness of feed layer is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts sisal fiber;

(6) place a fibrilia modified polyvinyl chloride plastic bed of material in the bottom of compression molding mold cavity, put the igelite particle on fibrilia modified polyvinyl chloride plastic bed of material upper berth, put on igelite particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay igelite particle on the above-mentioned flaxen fiber cloth of handling with silane coupler again, the flaxen fiber cloth mass ratio that igelite particle and silane coupler were handled 100: 10, the fibrilia modified polyvinyl chloride plastic bed of material of lay one deck above plastic pellet more at last, matched moulds, preheating is after 5 minutes in 185 ℃ of scopes, adopt the pressure compression molding of 5MPa, make the kenaf-plastics composite plate.Wherein the flaxen fiber cloth mass ratio handled of vinyon particle and silane coupler is 100: 10, takes by weighing the flaxen fiber cloth 5kg that vinyon particle 50kg, silane coupler handled.

The mold pressing between the two-layer fibrilia modified polyvinyl chloride plastic bed of material of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by igelite particle and silane coupler forms.

Above-mentioned after testing kenaf-plastics composite plate stretching intensity 33.9MPa, stretch modulus 3.4GPa, bending strength 66.6MPa, bending modulus 1.9GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 55%.

Embodiment 4: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(1) silane coupler and water were pressed mass ratio 1: 3, take by weighing silane coupler 3g, water 9g mixes, wherein water is solvent; Described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane;

(2) silane coupler of nano titanium oxide and dilution was pressed mass ratio 100: 4, the silane coupler 0.012kg that takes by weighing nano titanium oxide 0.3kg and above-mentioned dilution mixes, under 60 ℃ of temperature, the modified nano-titanium dioxide particle is made in vacuum drying 4.5 hours; Described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane;

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 3, take by weighing silane coupler 0.09kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 3kg is immersed in the silane coupler of dilute with water, soaks after 80 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 60 ℃ of temperature, vacuum drying 4.5 hours; Described flaxen fiber cloth adopts flax fiber cloth;

(4) polystyrene plastics particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 3: 1.3, take by weighing vinyon particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.3kg, antioxidant 1010 (A) 0.13kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 200 ℃, obtains the modified polystyrene plastic particle;

(5) above-mentioned modified polystyrene plastic particle and interface bulking agent, flaxen fiber were pressed mass ratio 100: 10: 20, take by weighing modified polystyrene plastic particle 10kg, interface bulking agent maleic anhydride graft polystyrene 1kg, flaxen fiber 2kg, put into container, mechanical mixture is even, rolls into fibrilia modified polystyrene plastics layer through calender then; Fibrilia modified polystyrene plastics layer thickness is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts flax fiber;

(6) place a fibrilia modified polystyrene plastics layer in the bottom of compression molding mold cavity, lay polystyrene plastics particle on fibrilia modified polystyrene plastics layer, put on polystyrene plastics particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay polystyrene plastics particle on the above-mentioned flaxen fiber cloth of handling with silane coupler, on the polystyrene plastics particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, lay polystyrene plastics particle on the flaxen fiber cloth of handling with silane coupler, the fibrilia modified polystyrene plastics layer of lay one deck above the polystyrene plastics particle more at last, matched moulds, preheating is after 8 minutes under 210 ℃ of temperature, adopt the pressure compression molding of 20MPa, make the kenaf-plastics composite plate; Wherein the flaxen fiber cloth mass ratio handled of polystyrene plastics particle and silane coupler is 100: 30, takes by weighing the flaxen fiber cloth 3kg that polystyrene plastics particle 10kg, silane coupler handled.

The mold pressing between two-layer fibrilia modified polystyrene plastics layer of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by polystyrene plastics particle and two-layer silane coupler forms.

Above-mentioned after testing kenaf-plastics composite sheet material hot strength 34.5MPa, stretch modulus 3.8GPa, bending strength 78.5MPa, bending modulus 2.5GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 60.1%.

Embodiment 5: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 5, take by weighing silane coupler 0.25kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 5kg is immersed in the silane coupler of dilute with water, soaks after 120 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 80 ℃ of temperature, vacuum drying 6 hours; Described flaxen fiber cloth adopts ramee cloth;

(4) vinyon particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 5: 2.0, take by weighing vinyon particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.5kg, antioxidant BHT 0.2kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 140 ℃, obtains the modified poly ethylene plastic pellet;

(5) above-mentioned modified poly ethylene plastic pellet and interface bulking agent, flaxen fiber were pressed mass ratio 100: 20: 30, take by weighing modified poly ethylene plastic pellet 10kg, interface bulking agent maleic anhydride grafted polyethylene 2kg, flaxen fiber 3kg, put into container, mechanical mixture is even, rolls into fibrilia modified vinyon layer through calender then; Fibrilia modified vinyon layer thickness is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts ramee;

(6) place a fibrilia modified vinyon layer in the bottom of compression molding mold cavity, lay vinyon particle on fibrilia modified vinyon layer, put on vinyon particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay vinyon particle on the above-mentioned flaxen fiber cloth of handling with silane coupler, on the vinyon particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, lay vinyon particle on the flaxen fiber cloth of handling with silane coupler, on the vinyon particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, on the flaxen fiber cloth of handling with silane coupler, repave and put the vinyon particle, the fibrilia modified vinyon layer of lay one deck above the vinyon particle more at last, matched moulds, preheating is after 10 minutes under 145 ℃ of temperature, adopt the pressure compression molding of 20MPa, make the kenaf-plastics composite plate; Wherein the flaxen fiber cloth mass ratio handled of vinyon particle and silane coupler is 100: 50, takes by weighing the flaxen fiber cloth 5kg that vinyon particle 10kg, silane coupler handled.

The mold pressing between two-layer fibrilia modified vinyon layer of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by vinyon particle and three layers of silane coupler forms.

Above-mentioned after testing kenaf-plastics composite sheet material hot strength 40.6MPa, stretch modulus 3.9GPa, bending strength 75.5MPa, bending modulus 3.1GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 60%.

Embodiment 6: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 3, take by weighing silane coupler 0.09kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 3kg is immersed in the silane coupler of dilute with water, soaks after 80 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 60 ℃ of temperature, vacuum drying 4.5 hours; Described flaxen fiber cloth adopts ramee cloth;

(4) vinyon particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 3: 1.3, take by weighing vinyon particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.3kg, antioxidant 1010 (A) 0.13Kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 200 ℃, obtains the modified poly ethylene plastic pellet;

(5) above-mentioned modified poly ethylene plastic pellet and interface bulking agent, flaxen fiber were pressed mass ratio 100: 10: 20, take by weighing modified poly ethylene plastic pellet 10kg, interface bulking agent maleic anhydride grafted polyethylene 1kg, flaxen fiber 2kg, put into container, mechanical mixture is even, rolls into fibrilia modified vinyon layer through calender then; Fibrilia modified vinyon layer thickness is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts ramee;

(6) place a fibrilia modified vinyon layer in the bottom of compression molding mold cavity, lay vinyon particle on fibrilia modified vinyon layer, put on vinyon particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay vinyon particle on the above-mentioned flaxen fiber cloth of handling with silane coupler, on the vinyon particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, lay vinyon particle on the flaxen fiber cloth of handling with silane coupler, the fibrilia modified vinyon layer of lay one deck above the vinyon particle more at last, matched moulds, preheating is after 8 minutes under 145 ℃ of temperature, adopt the pressure compression molding of 20MPa, make the kenaf-plastics composite plate; Wherein the flaxen fiber cloth mass ratio handled of vinyon particle and silane coupler is 100: 30, takes by weighing the flaxen fiber cloth 3kg that vinyon particle 10kg, silane coupler handled.

The mold pressing between two-layer fibrilia modified vinyon layer of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by vinyon particle and two-layer silane coupler forms.

Above-mentioned after testing kenaf-plastics composite plate stretching intensity 47.8MPa, stretch modulus 3.5GPa, bending strength 70.9MPa, bending modulus 2.3GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 68%.

Embodiment 7: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 1, take by weighing silane coupler 0.01kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 1kg is immersed in the silane coupler of dilute with water, soaks after 30 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 40 ℃ of temperature, vacuum drying 3 hours; Described flaxen fiber cloth adopts hemp cloth;

(4) polypropylene plastics particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 1: 0.5, take by weighing polypropylene plastics particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.1kg, antioxidant 1010 (A) 0.05kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 175 ℃, obtains the modified polypropylene plastic particle;

(5) above-mentioned modified polypropylene plastic particle and interface bulking agent, flaxen fiber were pressed mass ratio 100: 1: 10, take by weighing modified polypropylene plastic particle 10kg, interface bulking agent maleic anhydride inoculated polypropylene (MAPP) 0.1kg, flaxen fiber 1kg, put into container, mechanical mixture is even, rolls into the fibrilia modified polypropylene plastics bed of material through calender then; Fibrilia modified polypropylene plastics thickness of feed layer is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts hemp;

(6) place a fibrilia modified polypropylene plastics bed of material in the bottom of compression molding mold cavity, put the polypropylene plastics particle on fibrilia modified polypropylene plastics bed of material upper berth, put on polypropylene plastics particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay polypropylene plastics particle on the above-mentioned flaxen fiber cloth of handling with silane coupler again, the fibrilia modified polypropylene plastics bed of material of lay one deck above the polypropylene plastics particle more at last, matched moulds, preheating is after 5 minutes under 180 ℃ of temperature, adopt the pressure compression molding of 5MPa, make the kenaf-plastics composite plate; Wherein the flaxen fiber cloth mass ratio handled of polypropylene plastics particle and silane coupler is 100: 10, takes by weighing the flaxen fiber cloth 1kg that polypropylene plastics particle 10kg, silane coupler handled.

The mold pressing between the two-layer fibrilia modified polypropylene plastics bed of material of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by polypropylene plastics particle and silane coupler forms.

Above-mentioned after testing kenaf-plastics composite plate stretching intensity 41.5MPa, stretch modulus 2.7GPa, bending strength 64.6MPa, bending modulus 1.8GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 53%.

Embodiment 8: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 3, take by weighing silane coupler 0.09kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 3kg is immersed in the silane coupler of dilute with water, soaks after 80 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 60 ℃ of temperature, vacuum drying 4.5 hours; Described flaxen fiber cloth adopts hemp cloth;

(4) polypropylene plastics particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 3: 1.3, take by weighing polypropylene plastics particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.3kg, antioxidant 1010 (A) 0.13Kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 175 ℃, obtains the modified polypropylene plastic particle;

(5) above-mentioned modified polypropylene plastic particle and interface bulking agent, flaxen fiber were pressed mass ratio 100: 10: 20, take by weighing modified polypropylene plastic particle 10kg, interface bulking agent maleic anhydride inoculated polypropylene (MAPP) 1kg, flaxen fiber 2kg, put into container, mechanical mixture is even, rolls into the fibrilia modified polypropylene plastics bed of material through calender then; Fibrilia modified polypropylene plastics thickness of feed layer is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts hemp;

(6) place a fibrilia modified polypropylene plastics bed of material in the bottom of compression molding mold cavity, put the polypropylene plastics particle on fibrilia modified polypropylene plastics bed of material upper berth, put on polypropylene plastics particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay polypropylene plastics particle on the above-mentioned flaxen fiber cloth of handling with silane coupler, on the polypropylene plastics particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, lay polypropylene plastics particle on the flaxen fiber cloth of handling with silane coupler, the fibrilia modified polypropylene plastics bed of material of lay one deck above the polypropylene plastics particle more at last, matched moulds, preheating is after 8 minutes under 180 ℃ of temperature, adopt the pressure compression molding of 20MPa, make kenaf-plastics composite sheet material; Wherein the flaxen fiber cloth mass ratio handled of polypropylene plastics particle and silane coupler is 100: 30, takes by weighing the flaxen fiber cloth 3kg that polypropylene plastics particle 10kg, silane coupler handled.

The mold pressing between the two-layer fibrilia modified polypropylene plastics bed of material of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by polypropylene plastics particle and two-layer silane coupler forms.

Above-mentioned after testing kenaf-plastics composite plate stretching intensity 45.6MPa, stretch modulus 3.8GPa, bending strength 86.4Pa, bending modulus 3.1GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 64%.

Embodiment 9: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 5, take by weighing silane coupler 0.25kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 5kg is immersed in the silane coupler of dilute with water, soaks after 120 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 80 ℃ of temperature, vacuum drying 6 hours; Described flaxen fiber cloth adopts sisal fiber cloth;

(4) igelite particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 5: 2.0, take by weighing igelite particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.5kg, antioxidant BHT 0.2kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 180 ℃, obtains the modified polyvinyl chloride plastic pellet;

(5) above-mentioned modified polyvinyl chloride plastic pellet and interface bulking agent, flaxen fiber were pressed mass ratio 100: 20: 30, take by weighing modified polyvinyl chloride plastic pellet 10kg, interface bulking agent maleic anhydride inoculated polypropylene (MAPP) 2kg, flaxen fiber 3kg, put into container, mechanical mixture is even, rolls into the fibrilia modified polyvinyl chloride plastic bed of material through calender then; Fibrilia modified polyvinyl chloride plastic thickness of feed layer is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts flax fiber, sisal fiber, tossa mixture;

(6) place a fibrilia modified polyvinyl chloride plastic bed of material in the bottom of compression molding mold cavity, put the polypropylene plastics particle on fibrilia modified polyvinyl chloride plastic bed of material upper berth, put on igelite particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay igelite particle on the above-mentioned flaxen fiber cloth of handling with silane coupler, on the igelite particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, lay igelite particle on the flaxen fiber cloth of handling with silane coupler, on the igelite particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, on the flaxen fiber cloth of handling with silane coupler, repave and put the igelite particle, the fibrilia modified polyvinyl chloride plastic bed of material of lay one deck above the igelite particle more at last, matched moulds, preheating is after 10 minutes under 185 ℃ of temperature, adopt the pressure compression molding of 20MPa, make the kenaf-plastics composite plate; Wherein the flaxen fiber cloth mass ratio handled of igelite particle and silane coupler is 100: 50, takes by weighing the flaxen fiber cloth 5kg that igelite particle 10kg, silane coupler handled.

The mold pressing between the two-layer fibrilia modified polyvinyl chloride plastic bed of material of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by igelite particle and three layers of silane coupler forms.

Above-mentioned after testing kenaf-plastics composite sheet material hot strength 33.8MPa, stretch modulus 3.2GPa, bending strength 76.8MPa, bending modulus 2.5GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 57%.

Embodiment 10: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 3, take by weighing silane coupler 0.09kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 3kg is immersed in the silane coupler of dilute with water, soaks after 80 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 60 ℃ of temperature, vacuum drying 4.5 hours; Described flaxen fiber cloth adopts sisal fiber cloth;

(4) igelite particle and modified nano-titanium dioxide particle, antioxidant were pressed mass ratio 100: 3: 1.3, take by weighing igelite particle plastic pellet 10kg, modified nano-titanium dioxide particle 0.3kg, antioxidant 1010 (A) 0.13kg, mechanical mixture is even, use the extruder extruding pelletization, the extruding pelletization temperature is 180 ℃, obtains the modified polyvinyl chloride plastic pellet;

(5) above-mentioned modified polyvinyl chloride plastic pellet and interface bulking agent, flaxen fiber were pressed mass ratio 100: 10: 20, take by weighing modified polyvinyl chloride plastic pellet 10kg, interface bulking agent maleic anhydride inoculated polypropylene (MAPP) 1kg, flaxen fiber 2kg, put into container, mechanical mixture is even, rolls into the fibrilia modified polyvinyl chloride plastic bed of material through calender then; Fibrilia modified polyvinyl chloride plastic thickness of feed layer is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts sisal fiber;

(6) place a fibrilia modified polyvinyl chloride plastic bed of material in the bottom of compression molding mold cavity, put the igelite particle on fibrilia modified polyvinyl chloride plastic bed of material upper berth, put on igelite particle upper berth and to state the flaxen fiber cloth of handling with silane coupler, lay igelite particle on the above-mentioned flaxen fiber cloth of handling with silane coupler, on the igelite particle, repave to put and state the flaxen fiber cloth of handling with silane coupler, lay igelite particle on the flaxen fiber cloth of handling with silane coupler, the fibrilia modified polyvinyl chloride plastic bed of material of lay one deck above the igelite particle more at last, matched moulds, preheating is after 8 minutes under 185 ℃ of temperature, adopt the pressure compression molding of 20MPa, make the kenaf-plastics composite plate; Wherein the flaxen fiber cloth mass ratio handled of igelite particle and silane coupler is 100: 30, takes by weighing the flaxen fiber cloth 3kg that igelite particle 10kg, silane coupler handled.

The mold pressing between the two-layer fibrilia modified polyvinyl chloride plastic bed of material of this embodiment kenaf-plastics composite plate has flaxen fiber cloth reinforced plastic layer.The flaxen fiber cloth mold pressing that flaxen fiber cloth reinforced plastic layer was handled by igelite particle and two-layer silane coupler forms.

Composite board hot strength 42.4MPa, stretch modulus 2.8GPa, bending strength 75.4MPa, bending modulus 2.3GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 58%.

Embodiment 11: a kind of preparation method of kenaf-plastics composite plate, and its preparation process is:

(3) press flaxen fiber cloth and silane coupler mass ratio 100: 5, take by weighing silane coupler 0.25kg, the dilute with water silane coupler, water consumption is as the criterion with submergence flaxen fiber cloth; Flaxen fiber cloth 5kg is immersed in the silane coupler of dilute with water, soaks after 120 minutes, take out flaxen fiber cloth, drain, put into vacuum drying oven, under 80 ℃ of temperature, vacuum drying 6 hours; Described flaxen fiber cloth adopts tossa cloth;

(5) above-mentioned modified poly ethylene plastic pellet and interface bulking agent, flaxen fiber were pressed mass ratio 100: 20: 30, take by weighing modified poly ethylene plastic pellet 10kg, interface bulking agent maleic anhydride grafted polyethylene 2kg, flaxen fiber 3kg, put into container, mechanical mixture is even, rolls into fibrilia modified vinyon layer through calender then; Fibrilia modified vinyon layer thickness is 0.5～2mm, and flaxen fiber length is 0.5～10mm; Described flaxen fiber adopts tossa, ramee, hemp mixture;

Above-mentioned after testing kenaf-plastics composite sheet material hot strength 38.8MPa, stretch modulus 3.2GPa, bending strength 73.6MPa, bending modulus 2.7GPa, 90 ℃ were quickened thermo-oxidative ageing 600 hours, hot strength retention rate 63%.

Claims

1, a kind of kenaf-plastics composite plate is characterized in that being made of two-layer fibrilia modified plastic layer, flaxen fiber cloth reinforced plastic layer, and mold pressing has flaxen fiber cloth reinforced plastic layer between two-layer fibrilia modified plastic layer; Fibrilia modified plastic layer is modified plastics particle, flaxen fiber, interface bulking agent mixing calendered layer; Flaxen fiber cloth reinforced plastic layer is the flaxen fiber cloth embossed plies that plastic pellet and several layers silane coupler were handled.

2, a kind of kenaf-plastics composite plate according to claim 1 is characterized in that described plastic pellet adopts a kind of in polyethylene, polypropylene, polystyrene, the polyvinyl chloride.

3, a kind of kenaf-plastics composite plate according to claim 1 is characterized in that described flaxen fiber adopts a kind of in ramee, hemp, flax fiber, sisal fiber, the tossa.

4, a kind of kenaf-plastics composite plate according to claim 1 is characterized in that described flaxen fiber cloth adopts a kind of in ramee cloth, hemp cloth, flax fiber cloth, sisal fiber cloth, the tossa cloth.

5, a kind of kenaf-plastics composite plate according to claim 1 is characterized in that described interface bulking agent adopts a kind of in maleic anhydride inoculated polypropylene, maleic anhydride grafted polyethylene, the maleic anhydride graft polystyrene.

6, a kind of kenaf-plastics composite plate according to claim 1 is characterized in that described silane coupler adopts γ-(methacryloxypropyl) propyl trimethoxy silicane.