KR100617590B1 - Process for producing composite plastic board of rice husk and composition for use in this process - Google Patents

Abstract

The present invention relates to a high-strength composite plate composition using chaff and a method for producing a composite plate using the same, more specifically, polyolefin-based resin, ground chaff, glass filament and foaming agent as a base composite plate composition, By constructing a composite plate composition containing a bond strengthening agent and a dehydrating agent for water removal and strengthening the binding force, and by manufacturing the composite plate composition in the extrusion molding the inner layer is foamed and the outer layer has a three-layer structure of the unfoamed state, Easily available chaff provides excellent resilience and flexural strength above natural wood at low cost, replacing expensive Tropical Hard Wood (Apitong) and replacing natural wood or artificial plywood High strength composite plate composition that can be used and a method for producing a composite plate using the same will be.

Chaff, glass fiber, dehydrating agent, binding enhancer

Description

High-strength composite plate composition using chaff and method for manufacturing composite plate using same {process for producing composite plastic board of rice husk and composition for use in this process}             

1 is a diagram showing a process during extrusion molding of the composite plate according to the present invention,

Figure 2 shows a side view of each cooling plate forming a three-layer structure of the composite plate during the manufacturing process according to the present invention,

Figure 3 shows that the composite plate formed in the cooling plate during the manufacturing process according to the present invention is cooled by water cooling when passing through the cooling bath.

[Description of Symbols for Main Parts of Drawing]

10: mold 20: cold plate 1

21: Lower part of the cold plate 1 22: Thickness of the inlet side

23: thickness of exit side 30: cold plate 2

31: lower part of cooling plate 2 40: cooling plate 3

41: lower part of cooling plate 3 50: cooling water tank

60: Intake Roller

The present invention relates to a high-strength composite plate composition using chaff and a method for producing a composite plate using the same, more specifically, polyolefin-based resin, ground chaff, glass filament and foaming agent as a base composite plate composition, By constructing a composite plate composition containing a bond strengthening agent and a dehydrating agent for water removal and strengthening the binding force, and by manufacturing the composite plate composition in the extrusion molding the inner layer is foamed and the outer layer has a three-layer structure of the unfoamed state, Easily available chaff provides excellent resilience and flexural strength above natural wood at low cost, replacing expensive Tropical Hard Wood (Apitong) and replacing natural wood or artificial plywood High strength composite plate composition that can be used and a method for producing a composite plate using the same will be.

There are many known plate-shaped products such as walls, window frames and building materials using fibrous wood powder, pulp, paper, rice hulls, etc. as a filler in polyolefin resin, and methods for producing the same.

However, when the plate-shaped product is manufactured by using the fibrous wood flour, pulp, paper, etc. as a filler, the mixing property is poor during molding, and the hygroscopicity is so great that the molded article is exposed to moisture for a long time.                         

Thus, a plate material using chaff as a filler has been developed to solve the problem of mixing and reinforcing properties. However, using the chaff has a high strength and high resilience to use as a special flooring has not yet been presented.

This rice hull is one of the most common synthetic resin fillers as a sheath of plant and plant seeds, but has similar composition to wood, and contains more than 20% of lignin, which is easily decomposed or eluted by weak acid and weak base, and is very vulnerable to heat. Easily discolored during, there is a problem that greatly reduces the bonding strength of the plate when producing a plate using a binder resin.

In order to overcome this problem, various studies have been attempted. For example, a method of adding heat stabilizers or antioxidants to reinforce heat resistance or adding organic / inorganic fillers, glass fibers, wool, wood flour, and waste plastics has been suggested. It became.

However, these methods also had some effects on product color change and formability, but did not lead to increased bonding strength of the resin, which was not effective in increasing strength, and was not practical due to excessive cost. Apitong) products with high bending strength and resilience have not been released.

In particular, rice hulls contain a large amount of water, which acts not only in the case of containing but also in the water of binding, which is not easily removed by a simple temperature, which causes many problems when simply molded using a blowing agent.

As described above, many studies have been conducted to make products using rice hull, which is the most common by-product around us, which is generated in Korea and the East Asian region, where rice is a staple food. The method is too difficult or too expensive to produce most high value products.

Accordingly, the present invention had a problem of deterioration of physical properties due to the hygroscopicity when manufacturing a plate-like product with a filling material such as fibrous wood flour, pulp, paper, and the like, and also using chaff as a filler and manufacturing a plate using glass fiber here. In order to solve the problem that the moisture of the rice hull greatly decreases the bonding strength of the plate, does not show a great effect on the strength and is not put to practical use due to the excessive cost.

As a result, in the present invention, as a basic raw material in the composite plate composition, a predetermined size of crushed rice hull, glass filaments, and polyolefin resin having excellent compatibility with the chaff and glass filaments are used. In order to solve the problems of weakening of the bond strength and bending strength due to the water content of the conventional chaff, a high strength composite plate composition was obtained by additionally using a binding reinforcing agent and a dehydrating agent. In addition, in order to obtain a high-strength sheet, when the composite plate composition is extruded, the inner layer is foamed and the outer layer has a three-layered structure in an unfoamed state, so that a composite plate product exhibiting bending strength and resilience that exceeds natural wood of high strength is obtained. The present invention was completed by obtaining.                         

Therefore, in the present invention, by developing a chaff plate product having excellent strength and resilience by using a low-temperature extrusion method in a low cost and effective way compared to the prior art, container flooring, truck loading flooring, etc. The purpose of the present invention is to provide a high-strength composite plate composition using chaff that can be used as various cargo loading flooring materials, building formwork, building interior and exterior materials, roofing materials, and the like.

The present invention relates to a composite sheet composition containing a polyolefin resin, ground chaff, a glass long fiber treated with a silane coupling agent, and a foaming agent.

30-65 weight% of polyolefin resin, 30-60 weight% of crushed rice husks of 50-1,000 mesh size, 3-15 weight% of glass filaments, and 0.5-2 weight% of foaming agents as a basic composite plate composition,

0.01 to 1.0 part by weight of a dehydrating agent, based on 100 parts by weight of the basic composite plate composition, and

It is characterized by a high strength composite plate composition using rice hulls containing 0.01 to 3.0 parts by weight of a bond enhancer.

In addition, the present invention is the extrusion plate is formed by passing the composite plate material composition of the claim 1 between the cooling plate 20, 30, 40, the height of the upper and lower plates can be adjusted and the inlet portion is larger than the outlet portion. 20, 30, 40) includes a method for producing a high strength composite plate using chaff that the height of the upper and lower plates gradually decreases.

In addition, the present invention includes a composite plate having an internal foaming and an external non-foaming three-layer structure.

The present invention will be described in more detail as follows.

The present invention is a composite composite composition comprising a polyolefin resin, ground chaff, a glass long fiber and a foaming agent coated with a thermoplastic resin as a base composite composition, and a bonding reinforcing agent and a dehydrating agent for removing water and strengthening the cohesion of the rice hull. And it relates to a method for producing a composite plate of a three-layer structure having a high strength and a high restoring force extruded.

In the present invention, the polyolefin resin is used at 30 to 65% by weight in the composite sheet composition. As the polyolefin resin used in the present invention, one selected from polystyrene, polypropylene, polyethylene, polycarbonate, and polybutadiene resin is used. Preferably, polypropylene resin is used. At this time, if the use content is less than 30% by weight, there is a problem that the bending strength is lowered, whereas if it exceeds 65% by weight, there is a problem that the elasticity and restoring force such as natural wood is lost.

In particular, the present invention is characterized in that a large amount of rice hull, which is a waste which is incinerated and left in the past as a filler, is contained in a large amount in the sheet composition to be molded into a plate-like product having excellent bending strength.

In the present invention, as chaff used as a main component in the composite plate composition, it is preferable to use a crushed chaff having a size of 50 to 1,000 mesh. If the chaff has a grain size of less than 50 mesh, the filling density is lowered and thus the Deterioration occurs, there is a problem in that the consumption of the resin acting as a binder increases when using the crushed chaff more than 1,000 mesh. Therefore, in the present invention, the crushed rice husk of the size is used in 30 to 60% by weight, when the use content is less than 30% by weight, there is a problem that the restoring force is reduced, while if it exceeds 60% by weight, flexibility and bending strength is reduced There is a problem.

In addition, in the present invention, by using the glass filament in the composite sheet composition, it serves to improve the bending strength and restoring force of the plate, the length of the glass filament used in the present invention is 3.0 to 12.0 mm dispersibility and physical properties It is advantageous to At this time, the use amount of the glass filament is contained in 3 to 15% by weight, if the use content is less than 3% by weight, there is a problem that the restoring force and elasticity of the plate is lowered, whereas if it exceeds 15% by weight the flexibility of the plate This has a problem of deterioration.

Here, the specific gravity of the crushed rice husk is 0.90 g / cc, it is heavier than the wood powder (0.70 g / cc) used as a conventional filler, the specific gravity of the molded body used as the filler is close to 1.0 g / cc specific gravity compared to natural wood Heavy molded bodies are formed.

In the present invention, in order to solve the problem that the heavy molded body is formed by the specific gravity of the crushed rice husk as described above, the specific gravity can be molded to the level of natural wood using a foaming agent in the composite plate composition.

The blowing agent used in the present invention is an azodicarbonamide-based product, and its content is 0.5 to 2.0% by weight to obtain a product such as natural wood with a density of 0.90 g / cc or less. At this time, if the use content is less than 0.5% by weight, there is a problem that the specific gravity becomes high, whereas when it exceeds 2.0% by weight, there is a problem that the strength is reduced due to overexposure. Other foaming agents that can be used are selected from urea (modified urea), TSH (Toluene sulfonyl hydrazide), DPT (Dinitroso pentamethylene tetramine) is used.

However, in general, the foaming of the polyolefin resin using chaff as a filler cannot obtain a uniform foaming ratio due to the moisture contained in the chaff. Conventional techniques use a large amount of foaming agent or to form the inside of the molded body in a hollow shape to solve this problem, but there is a problem that can not obtain a uniform foaming.

In addition, chaff is a filler commonly used in plate composition, and is used in various applications through crushing. However, lignin and bound water contained in a large amount in spite of reasons of excellent sound insulation or sound absorption, antibacterial property, and price are used. Application to high-strength products with moisture close to was problematic.

Therefore, in the present invention, by using a dehydrating agent in the plate composition in order to solve the problem of moisture of the chaff as described above, it is characterized by forming a plate-like product exhibiting high strength properties by improving the bonding strength and foaming properties. That is, in the present invention, a uniform foam can be obtained by simultaneously using a dehydrating agent in addition to the blowing agent used above.

In the present invention, the dehydrating agent is used in the composite sheet composition in an amount of 0.01 to 1.0 parts by weight based on 100 parts by weight of the basic composite sheet composition, and when the content of the dehydrating agent is out of the above range, the dehydrating agent combined with water serves as a plasticizer. not. The dehydrating agent used in the present invention may be selected from maleic anhydride or its derivatives, Na ₂ SO ₄ , or benzoic anhydride and its derivatives. Examples of the benzoic anhydride family include benzoic anhydride and pt-butyl benzoic acid.

In particular, in the case of the maleic anhydride used as the dehydrating agent in the present invention, the moisture generated from the chaff during the molding process is collected into maleic acid, and the maleic anhydride is a processing lubricant having excellent compatibility with the polyolefin resin. This action increases the packing density of the resin and improves the foamability, thereby increasing the strength of the product. In addition to the maleic anhydride, derivatives thereof having similar structures also show the same results.

In addition, in the present invention, in order to solve the problem that the polyolefin-based resin contains a large amount of chaff, the restoring force is increased, but a decrease in bending strength is used. Glass long fibers coated with the mentioned thermoplastic polymers can be added to form products with excellent bending strength and resilience over natural wood.

Therefore, in the present invention, the binding reinforcing agent is used in an amount of 0.01 to 3.0 parts by weight based on 100 parts by weight of the basic composite plate composition, and when the content of the binding reinforcing agent is out of the above range, the decrease in the bonding strength or the premature curing is promoted to increase the surface hardness. It is not desirable. As the binding enhancer used in the present invention, aminosilane or derivatives thereof may be used, or vinyl silane, vinyl silane, epoxy silane or methacryloxy silane may be used.

In particular, when looking at the chemical structure of the aminosilane, the methoxide attached to silica bonds by dehydration reaction with water of chaff used as an inorganic filler, and the amine group reacts with the double bond of polypropylene to form a crosslink. . This solves the problem of water removal in the chaff, which causes molding and deterioration of physical properties, and forms hydrogen bonds and crosslinks with the polyolefin-based resin to enhance the bending strength and resilience of the product.

As such, in the present invention, the dehydrating agent and the binding reinforcing agent are used to effectively achieve the bending strength and water removal, which is one of the physical properties required by the sheet product.

In addition, 0-1.0 weight part of antibacterial agents and 0.1-3.0 weight part of processing lubricants can also be used with respect to 100 weight part of said board | plate materials as other additives used by this invention.

On the other hand, when described in more detail with respect to the manufacturing method of a high-strength composite plate using a chaff for extrusion molding the composite plate composition having the composition as described above.

As shown in the accompanying drawings, the present invention, after mixing the raw material mainly consisting of chaff, extrusion molding; Mold 10; An inlet of which the upper and lower plate heights of the cooling plate are adjusted is large, and a cooling plate consisting of a cooling plate 1 (20), a cooling plate 2 (30), and a cooling plate 3 (40) formed of a narrow outlet; A chiller (bath) 50; And take roller 60, through the sequence of the product cutting process to produce a composite plate.

In particular, the composite plate according to the present invention is characterized in that the foam is formed inside, the outer unfoamed three-layer structure, the method for producing a product having such a three-layer structure is a mixture of a composition formed in a constant proportion extruder Extruded and foamed at a temperature of 170 ~ 230 ℃ through, and the sample discharged through a mold of a predetermined shape (plate in the present invention) by pressing the high pressure in the forming plate with a cooling device in the interior by using the heat insulation characteristics of chaff Foaming continues and the outside is cooled to form an unfoamed layer.

When described in more detail with respect to the method for producing a composite plate, as follows.

Conventionally, when manufacturing a composite sheet, the core heater (core heater) is separately installed in the center, the center is heated to 200 ~ 210 ℃ to foam the central portion of the plate, and the outer layer is extruded at a temperature of 170 ~ 180 ℃ to plate Prepared.

On the contrary, in the present invention, as shown in the accompanying drawings, the cooling plate 1 (20, 21), the cooling plate 2 (30, 31) and the cooling described above when passing through the cooling plate in the mold during the extrusion process The cooling plate is characterized by a special structure consisting of plates 3 (40, 41). At this time, the cooling plate 1, 2 and 3 is made of a structure in which the height ratio gradually decreases.

First, the molded product passed through the mold 10 of the extruder passes through the cold plate 1 composed of the upper part 20 and the lower part 21. That is, the cake passing through the mold is primarily formed in a plate shape while passing through the cooling plate 1 in a rounded state. At this time, by cooling and rubbing the upper and lower surfaces of the foamed product while passing through the cooling plate 1, the surface is simultaneously rubbed and cooled, thereby suppressing foaming of the surface, thereby smoothing the surface of the plate. Therefore, the three-layer structure in which the inner layer, which is a feature of the product of the present invention, is foamed and the outer layer is unfoamed, is made in the cold plate 1.

The cold plate 1 is a device that can adjust the inlet height and the outlet height differently, the inlet portion is made larger than the outlet portion, the degree of foaming, shrinkage according to the thickness and composition of the plate to be manufactured Therefore, there is a difference in the inlet thickness and the outlet thickness of the cold plate. That is, the difference between the inlet size and the outlet size of the upper portion 20 and the lower portion 21 of the cooling plate 1 is adjusted to 1 to 10 mm. When the difference is less than 1 mm, the difference is small and the upper and lower parts of the molded article are foamed. Since the surface is not sufficiently quenched and rubbed, the inner layer is foamed and the outer layer has a problem of failing to obtain a three-layered sheet having an unfoamed state, and when the difference exceeds 10 mm, it is difficult to take out the molding by the roller. There is a problem that the thickness of the plate is not constant or the surface is not smooth. At this time, the temperature at the time of extrusion is 170-230 degreeC.

In addition, the cooling plate 2 (30) is made of a lower ratio than the cooling plate 1, the cooling plate 2 adjusts the thickness of the plate formed in the cooling plate 1. Here, the molded body that passed through the cooling plate 1 is cooled but the inside is not yet cooled, and by controlling the inlet thickness and the outlet thickness of the molded body in this state, the cooling plate 2 of the test piece accompanying cooling The thickness is primarily determined while compensating for shrinkage. At this time, in the case of the upper portion 30 and the lower portion 31 of the cooling plate 2, the difference between the inlet thickness and the outlet thickness is preferably adjusted to 1 to 4 mm.

More preferably, in the case of manufacturing a thick plate, by using the third cooling plate 40, a plate having a smooth surface and a constant thickness can be produced. That is, the cooling plate 3 having a smaller height ratio than the cooling plate 2 finally cools the formed body having a constant thickness formed in the cooling plate 2 at the time of manufacture of the thick plate, and finally the final thickness of the plate is determined by the cooling plate 3. In addition, the cold plate 3 also compensates for the phenomenon of shrinkage during cooling by providing a difference between the inlet thickness and the outlet thickness. At this time, the difference between the inlet thickness and the outlet thickness of the upper portion 40 and the lower portion 41 of the cooling plate 3 is preferably adjusted to 1 to 2 mm.

Here, the lower portion 21 (31, 41) of each of the cooling plate is provided with a thickness as shown in the accompanying drawing 2, which is appropriately adjusted according to the foaming rate, formulation and thickness. Then, the thickness of the inlet side 22 is thicker than the thickness of the outlet 23, the gap between the cold plate is gradually reduced. This is to shrink when the molded product is cooled while going through the cooling plate, to compensate for this shrinkage to achieve efficient cooling. At this time, the upper plate 20 (30, 40) of the cooling plate is driven by a cylinder using high pressure air, and the lower plate 21 (31, 41) of the cooling plate is fixed.

As described above, in the present invention, a plurality of height-adjustable cooling plates are applied to produce a plate having a three-layered structure having a smooth surface and a constant thickness, the inner layer being foamed, and the outer layer being unfoamed. That is, when only one cooling plate is used, there is a problem that foaming is not only maintained by heat inside the plate even after cooling, but also shrinks during cooling, and only one cooling plate makes it difficult to control the thickness of the plate to manufacture a plate of constant thickness. There is a problem that is not easy. Therefore, in the present invention, by installing a plurality of cooling plates to adjust the inlet thickness and the outlet thickness of the cooling plate according to the desired thickness, foaming degree, and shrinkage rate of the plate to produce a smooth and constant thickness plate.

In the present invention, after the above-mentioned process, the composite plate formed through each cooling plate is passed through a cooling water tank 50 as shown in Fig. 3 to be cooled by water. This is because, even when passing through the cold plate 3, in the case of forming a thick plate, it may not be completely cooled to the inside of the molded body. In the cooling bath, water is sprayed up and down the plate to finally cool the specimen.

In the next step of the cooling water tank, a draw roller 60 is positioned to pull the plate. The take-up speed should be adjusted accordingly depending on the amount of cake coming out of the mold. In the present invention, a total of five pairs of rollers are used, and each roller pair takes a plate.

Therefore, in the composite sheet of the present invention, the composite sheet composition continuously passes through the cold plate 1, the cold plate 2, and the cold plate 3 during extrusion molding, and the inside of the plate continues to be foamed by extrusion, thereby exhibiting excellent bending strength. The upper and lower surfaces are prevented from foaming due to quenching and friction, thereby forming a three-layer structure that exhibits high strength characteristics.                     

That is, when molding a low-density product using a foaming agent by the molding method using the composite sheet composition, the bending strength is necessarily accompanied. Therefore, the present invention is to solve this problem, as described above, by forming a plate having a three-layer structure of the inner layer is foamed and the outer layer is unfoamed, thereby suppressing the strength decrease due to foaming and excellent resilience as a characteristic The product can be manufactured.

As described above, the composite plate composition using the chaff of the present invention is very excellent in bending strength and resilience unlike the composite plate-like product using the traditional chaff, and also has a wood-like texture, nailing, antibacterial, sawing and Surface wear and the like is excellent, by molding to have a three-layer structure in the process of extruding it can exhibit excellent restoring force.

Hereinafter, the present invention will be described in more detail with reference to Examples, but the present invention is not limited by Examples.

Example 1 and Comparative Example 1

In order to determine the difference in physical properties according to the application of the dehydrating agent, the composite plate was prepared by the same mixing process and extrusion molding process in the composition and content shown in Table 1 below.

After mixing the raw materials according to the composition shown in Table 1 in the mixer, and molding a 28 mm thick product with a 120 mm diameter extruder to measure the physical properties in the following method, it can be seen that the bending strength is improved as shown in Table 1 there was.

[How to measure]                     

1) Density: Weight value calculated from the dimensions and weight of the specimen

2) Flexural strength: According to JIS K-7203 measuring method

3) Heat distortion point: According to JIS K-7207 measuring method

4) Restorative force: Place the specimen on the support of 300 mm and allow the center of the specimen to deflect 10 mm with a constant load for 5 minutes and measure the permanently deformed distance after 5 minutes of unloading.

Example 2 and Comparative Example 2

In order to examine the change in physical properties according to the use of the binding enhancer, to prepare a specimen of the same mixing and preparation method as in Example 1 with the composition shown in Table 2, in the case of the example was applied amino silane as a binding enhancer, Was measured in the same manner as in Example 1 and the results are shown in Table 2 below.

From the results in Table 2, it can be seen that the use of the binding enhancer has an improvement in the bending strength value.

Comparative Example 3

Molding the plate in the same manner as in Example 2, but in the manufacture of a composite sheet by forming the inside and outside of the conventional specimen in the same foaming ratio, a core heater (core heater) separately installed in the center to the center to 200 ~ 210 ℃ The center part of the board was foamed by heating, and the outer layer was extruded at a temperature of 170 to 180 ° C. to prepare a board.

Example 3

Extruded and foamed at a temperature of 170 ~ 230 ℃ through a extruder to the mixture consisting of the same composition and content as in Example 2, the sample discharged through a mold of a constant shape (in the present invention plate) attached to the cooling device Pressing at high pressure on the molding plate using the heat insulating properties of the rice husk continued to foam inside and the outside was cooled to form an unfoamed layer.

And, in order to determine the change in the physical properties of the Comparative Example 3 and Example 3, and the composition mixed in the same manner as in Example 1 extruded by the same method and pressed with a high-pressure cooling plate to form a three-layer structure and Density, flexural strength and thermal strain point in the properties of single-layered specimens molded by the general method were measured by the method used in Example 1, and the results are shown in Table 3 below.                     

As described above, the present invention can obtain the following effects.

First, it is easy to develop the application by controlling the specific gravity according to the characteristics of the product by using the foaming agent, but the inside of the plate is foamed by the rapid cooling and friction of the surface of the plate using a number of cooling plates, but the back surface and the surface layer of the plate are not foamed. Since it is possible to manufacture a plate material having a three-layer structure, it is possible to manufacture a plate material having a low specific gravity and a remarkable improvement in bending strength and restoring force.

Second, by using a bond enhancer and a dehydrating agent to react with the water contained in the chaff to remove the water contained in the chaff causing molding and deterioration of properties, and by hydrogen bonding and crosslinking formation of the bond enhancer and polyolefin resin It can enhance the bending strength of the plate product.

Claims (8)

In the composite sheet composition containing a polyolefin resin, ground chaff, a glass long fiber treated with a silane coupling agent and a foaming agent, 30-65 weight% of polyolefin resin, 30-60 weight% of crushed rice husks of 50-1,000 mesh size, 3-15 weight% of glass filaments, and 0.5-2 weight% of foaming agents as a basic composite plate composition, 0.01 to 1.0 part by weight of a dehydrating agent, based on 100 parts by weight of the basic composite plate composition, and A high strength composite plate composition using rice husk, characterized in that it contains 0.01 to 3.0 parts by weight of a bond enhancer. The high strength composite plate composition using chaff according to claim 1, wherein the dehydrating agent is selected from maleic anhydride or derivatives thereof, Na ₂ SO ₄ , or benzoic anhydride and derivatives thereof. The high strength composite plate composition using chaff according to claim 1, wherein the binding enhancer is selected from aminosilane or derivatives thereof, vinyl silane, epoxy silane and methacryloxy silane. Upper and lower plate height can be adjusted and the inlet portion is extrusion molded through the composite plate composition of claim 1 between the cooling plate (20, 30, 40) larger than the outlet portion, the cold plate (20, 30, 40) ) Is a method for producing a high strength composite plate using chaff, characterized in that the upper and lower plate height ratio gradually decreases. 5. The method of claim 4, wherein the cooling plate (20) has a size difference between the inlet and the outlet portion of 1 to 10 mm. The method of claim 4, wherein the cooling plate (30) has a size difference between the inlet and the outlet portion of 1 to 4 mm. 5. The method of claim 4, wherein the cooling plate (40) has a size difference between the inlet and the outlet portion of 1 to 2 mm. 5. The high strength composite plate using chaff of claim 4, wherein the composite plate is foamed inside and an unfoamed three-layer structure outside.

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