JP2011037184A - Molding method of compacted wood composite molding - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a molding method of a compacted wood composite molding which improves surface hardness of a wood wherein a 3-dimensional molding has been formed, prevents warpage or strain, and has high smoothness of the wood surface and excellent glossiness. <P>SOLUTION: In the molding method of a compacted wood composite molding, a wood is set in a mold, a molten thermoplastic resin is injected under pressure in a rear surface side of the wood, the wood is pressurized and compacted while forming in a 3-dimensional shape having a predetermined shape by compressing the wood in the thickness direction, and the wood and the thermoplastic resin are integrated. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a method for forming a consolidated wood composite molded article, and more particularly to a method for forming a consolidated wood composite molded article, in which a wood having a certain thickness (for example, 0.5 mm) or more is compactly formed into a three-dimensional shape.

There are luxury products such as car handles, interior panels, cruisers, home appliances, audio products, furniture, etc., which have been machined from a single piece of solid wood, but it is difficult to machine and takes time and costs. There have been many problems due to this and the generation of cutting waste, and it has not been mass-produced.
In addition, as a method of increasing the strength of wood or imparting a three-dimensional shape, there is a method of compacting wood by heat compression in a pressure-resistant sealed container, but after heat-compressing wood in a high-temperature and high-pressure container Since the operation of cooling and fixing is performed, it has not been put into practical use because it takes a very long time and requires a large amount of capital investment.

  In JP-A-3-30921 (Patent Document 1), one wooden board or several wooden boards coated with a thermosetting adhesive in advance are placed in an injection mold, and on the back side of the wooden board. At the same time as molding the mounting portion by injecting synthetic resin, the wooden plate is shaped into a predetermined shape by the mold, and the wooden plate and the mounting member are bonded and integrated, A method for molding a resin molded part is disclosed.

  Japanese Patent Laid-Open No. 5-327506 (Patent Document 2) discloses a wooden decorative surface material in which a single wood plate is laminated on one surface of a metal thin plate or a resin thin plate, and a porous material or a fibrous material is laminated and integrated on the other surface. Next, the wood single plate part of this surface material is subjected to a coating treatment, and then placed in a molding die, and a resin is injected into the porous material or fiber material side of this surface material to perform composite molding. A manufacturing method characterized by obtaining a product is disclosed.

However, the methods disclosed in these publications require a step of integrating the metal foil plate and the wood in advance before molding, or they are integrated by applying a thermosetting adhesive to the wood. This is a molding method, the process is complicated, and the surface hardness of the obtained molded product is not sufficient.
In addition, when a thin veneer (thickness of about 0.3 mm) is used, even if the backing is reinforced, injection molding into a three-dimensional shape causes the resin to break the veneer at a portion with a large curvature. Cracks at the edge of the curved surface and wrinkles at the center caused damage to the design of the wood.
In this regard, a thin plate that is expected to stretch out protrudes from the inside of the mold, and the mold cannot be closed. Moreover, even if it is intended to be stored in the mold, it is necessary to compress it vertically and horizontally, and new equipment and methods are added, which is complicated. Furthermore, if it is intended to be brought into close contact with the curved surface of the mold, a special process is required for the means for softening the wood and the mold, and a separate method is added, which again results in a complicated and complicated process. .

JP-A-3-30921 JP-A-5-327506

An object of the present invention is to provide a method for forming a compacted wood composite molded article in which the surface hardness of the wood formed by three-dimensional molding is improved.
Furthermore, in addition to the above object, the object of the present invention is to use a wood having a certain thickness, there is no practically problematic warpage or distortion, the wood surface has high smoothness, and has a good gloss. It is to provide a method for forming a compacted wood composite molded article.
Furthermore, an object of the present invention is to provide a molding method of a compacted wood composite molded product that can express a high-class feeling by effectively using a grain by giving a volume of a solid material that cannot be expressed by a veneer. That is.

  The method for molding a compacted wood composite molded product of the present invention comprises placing wood in a molding die, pressurizing and injecting molten thermoplastic resin to the back side of the wood, and compressing the wood in the thickness direction. A molding method for a compacted wood composite molded product, characterized by forming a predetermined three-dimensional shape, compacting the wood, and integrating the wood and the thermoplastic resin.

  In another molding method of a compacted wood composite molded product according to the present invention, the wood is placed in contact with both surfaces in the molding die, and a molded thermoplastic resin is injected under pressure between the wood. The wood used as the surface member of the product is compressed in the thickness direction to form a predetermined three-dimensional shape, and the two woods are consolidated to integrate the two woods and the thermoplastic resin. This is a molding method of a compacted wood composite molded product.

Preferably, another compacted wood composite molded article according to the present invention is a compacted wood composite molded article characterized in that in the molding method, the pressure injection of the molten thermoplastic resin is performed in two stages. This is a molding method.
More preferably, in another molding method of a compacted wood composite molded article of the present invention, in the molding method, the wood is heated in the air or in a saturated steam atmosphere before the wood is placed in the molding die. Is a method for forming a compacted wood composite molded article.

Preferably, another compacted wood composite molded product molding method of the present invention is the above-mentioned molding method, wherein the wood is placed on the side in contact with the molding die before being placed on the molding die, and the three-dimensional shape is formed. An ultraviolet curing agent is preliminarily applied to the surface of the wood to be shaped, and the ultraviolet curing agent is cured by irradiating ultraviolet rays onto the wood surface of the integrated molded product to which the ultraviolet curing agent is applied. This is a method of forming a compacted wood composite molded product.
More preferably, another compacted wood composite molded article molding method of the present invention is characterized in that, in the molding method, the thermoplastic resin contains a wood-based pulverized product, and the compacted wood composite molded article molding method is characterized in that It is.

The method for producing a compacted wood composite molded article of the present invention has no warping or distortion that is practically problematic even when wood having a certain thickness is used, has high smoothness of the wood surface, and has a good gloss. It becomes possible to mold a compacted wood composite molded product in which the surface hardness of the wood shaped by three-dimensional molding is improved.
In particular, the method for producing a compacted wood composite molded article according to claim 4 has, in addition to the above-described effects, further reduced deformation and good smoothness. This is because the hemicellulose in the wood, particularly polyuronide, is chemically changed. This is considered to be due to the fact that the polymer becomes weakly hygroscopic and the cellulose chains are bonded to each other by hydrogen bonding.
In addition to the above effects, the method for producing a compacted wood composite molded article according to claim 5 can further omit the coating step and can finish the surface properties more smoothly.

It is a figure which shows typically one Example of the process of the shaping | molding method of the compacted wood compound molded product of this invention. It is a figure which shows typically one Example of the process of the shaping | molding method of the other consolidated wood composite molded product of this invention. It is a photograph figure of one Example of the compacted wood compound molded product in which the three-dimensional shape was shaped by this invention. It is a photograph figure of one Example of the wood surface roughness before and behind the shaping | molding of this invention at the time of using walnut wood. It is the photograph from the side of one Example of the composite molded product obtained using walnut wood. It is a figure which shows typically the method of measuring the curvature amount of the obtained consolidated wood composite molded product. It is a diagram which shows the curvature amount by the humidification test of the obtained consolidated wood composite molded product. It is a diagram which shows the curvature amount by the drying test of the obtained consolidated wood composite molded product.

The molding method of the consolidated wood composite molded product according to the present invention will be described in detail below.
The first compacted wood composite molded article molding method of the present invention comprises placing wood in a molding die, pressurizing and injecting a molten thermoplastic resin onto the back side of the wood, and placing the wood in the thickness direction. This is a method for forming a compacted wood composite molded product in which the wood is compacted to form a predetermined three-dimensional shape, the wood is consolidated, and the wood and the thermoplastic resin are integrated.
Further, the second compacted wood composite molded product molding method of the present invention is obtained by placing wood in contact with both surfaces in a molding die and pressurizing and injecting a molten thermoplastic resin between the wood. Compacting the wood as the surface member of the molded product into a predetermined three-dimensional shape by compressing it in the thickness direction, consolidating the two woods, and integrating the two woods and the thermoplastic resin This is a method for forming a wood composite molded article.

FIG. 1 is a diagram schematically showing an embodiment of a process of a method for forming a consolidated wood composite molded product according to the present invention.
First, the wood 2 for shaping the three-dimensional shape is installed in the mold 1.
In the present invention, the type of wood that can be used is not specified, and any type can be applied, and examples include oak, walnut, bamboo, and the like.
The form of the wood may be solid wood or laminated wood.
Furthermore, the thickness of the wood is not particularly limited as long as it can be installed in a mold, but the thickness is 0.5 mm to 5.0 mm from the viewpoint of ease of moldability and the effect of the present invention more effectively. This wood can be preferably used.

Preferably, the wood is heated in the atmosphere or in a saturated steam atmosphere to reduce the hygroscopicity of the wood, thereby reducing the deformation and deviation after the product.
Further, when the wood is exposed to a high temperature of, for example, 150 ° C. or higher in the order of saturated steam, air, and vacuum, deformation of the obtained molded product is reduced. The details are unknown, but this is thought to be due to the fact that hemicelluloses in wood, especially polyuronides, chemically change to weakly hygroscopic polymers and that the cellulose chains are bonded to each other by hydrogen bonding. It is done.

Further, if necessary, the wood can be preliminarily coated with an ultraviolet curing agent on the surface of the wood for shaping the three-dimensional shape before being installed in the mold.
By applying an ultraviolet curing agent to the surface of the wood that forms a three-dimensional shape, the coating process can be omitted, and the surface properties can be finished more smoothly.

The wood 2 is placed in a three-dimensional mold 1 (FIG. 1 (a)), and the back side of the wood 2, that is, the gap 3 between the wood 2 and the male mold (FIG. 1 ( b)), the molten thermoplastic resin 4 is injected (FIG. 1 (c)).
The kind of thermoplastic resin to be used is not particularly limited, and any one can be used. Examples thereof include polybutylene terephthalate, polypropylene, polyethylene terephthalate, ABS, polystyrene, polyphenylene sulfide, and the like.
Since the thermoplastic resin is injection molded in a molten state, it is preferable to apply a thermoplastic resin that is preferably in a molten state at 150 to 350 ° C. in terms of ease of handling and cost.
Preferably, the thermoplastic resin is pre-dried to remove the contained water from the viewpoint of stabilizing the moldability by suppressing the generation of bubbles and sink marks inside.

Furthermore, the molten thermoplastic resin can contain wood flour. By including wood powder in the thermoplastic resin, there is an advantage that the thermal behavior such as the linear expansion coefficient is brought closer to the wood, and the dimensional stability of the consolidated wood composite product is improved.
The ratio of the wood flour that can be contained in the thermoplastic resin is 10 to 80% by weight from the viewpoint of fluidity.

  The molten thermoplastic resin is injected at, for example, an injection pressure of 10 to 140 MPa, and the wood placed in the mold is heated and compressed from the back side of the wood on which the molten thermoplastic resin is injected, and the desired three-dimensional The shape will be shaped on the wood surface.

The injection of the molten thermoplastic resin may be one-stage injection, but is preferably performed in two stages.
Even when molten thermoplastic resin is injected into the mold at high pressure, the air remaining inside the mold is rapidly compressed, so the resulting compacted wood composite molded product has molding defects such as short shots and burns. May occur. This is because it is desirable to perform injection in two stages in order to prevent such a phenomenon.
Specifically, for example, the injection molding is first divided into an injection 1 pressure and an injection 2 pressure, the injection 1 is injected with a molten thermoplastic resin at a low pressure, for example, 27 to 37 MPa, and the compression of the internal air is moderated, After expelling air, the molten thermoplastic resin is injected into the injection 2 at a high pressure, for example, 19 to 131 MPa. As a result, the molten thermoplastic resin is reliably filled up to the end of the mold.
The injected molten thermoplastic resin heat-compresses the wood from the back side of the wood to consolidate the wood and integrate the resin and the wood.
The injection pressure is high in fluidity of the molten resin, and it is not necessary to make the injection pressure in two stages as long as the molten resin can be injected into every part of the injection, but the injection molding resin desires injection molding. When it is difficult to inject into every corner, the injection pressure is appropriately switched between two levels depending on the type of resin.

The consolidation of the wood differs depending on the type of wood because the specific gravity differs, but the wood is compressed at a pressure at which the cell walls of the wood are not destroyed until there are no cell voids (cell endothelium, cell gaps, etc.). The wood surface hardness of the composite molded article obtained by this can be made favorable.
For example, the specific gravity of oak or bamboo is about 0.65 to 0.70 and the walnut is about 0.6, and the compression rate is different if the specific gravity is different.
The hardness of the obtained molded product is harder than the surface hardness of the wood before molding, and can be 1.1 to 1.8 times, for example.

  After injection molding, after cooling to 80 ° C. or less, preferably 40 ° C. or less, or room temperature, the molded product was taken out from the mold, and the mounting portion 5 made of wood and thermoplastic resin was integrated. A compacted wood composite molded article of the present invention is obtained (FIG. 1 (d)).

If UV curable resin is applied to the surface of wood before it is placed on the injection mold, the resulting composite molded product is irradiated with UV to cure the UV curable resin on the wood surface. Let
Thereby, a painting process can be skipped and surface properties can be finished more smoothly.

  In the second method of the present invention, when the wood 2 is placed in the mold 1, the wood 2 is placed in contact with both surfaces in the molding die 1 as shown in FIG. 2 (FIG. 2 (a), (B)) Except that the molten thermoplastic resin 4 is injected under pressure into the gap 3 of the wood 2 (FIG. 2 (c)), it is carried out in the same manner as in the first method of the present invention, A consolidated wood composite molded product can be obtained (FIG. 2 (d)).

  The compacted wood composite molded article according to the present invention thus obtained can impart three-dimensional processing to the wood surface, improve its surface hardness and wear resistance, and warp and the like that are practically problematic. There is no distortion, the smoothness of the wood surface is excellent, and it is a glossy molded product.

  In addition, if necessary, the entire surface of the obtained composite molded article can be painted, for example, with urethane, so that the resulting composite molded article can be exposed to dry and wet conditions repeatedly for a long time. In addition, peeling, warping, and deformation are not observed at all between the thermoplastic resin and the wood, and excellent integration can be realized.

EXAMPLES Hereinafter, although this invention is demonstrated based on the following Example and comparative example, this invention is not restrict | limited at all by an Example.
Example 1
A thermoplastic resin for injection molding (polybutylene terephthalate resin, trade name: DURANEX 600JP, manufactured by Polyplastics Co., Ltd.) was first pre-dried at 120 ° C. for 5 hours to remove contained water.
As shown in FIG. 1, each piece of wood (thickness 3 mm × length 100 mm × width 80 mm) made of laminated bamboo, walnut, and solid oak was placed in a heated three-dimensional mold for injection molding.
Next, the injection molding cylinder temperature is set to 240 ° C. on the back side of each installed wood in the mold, and the molten thermoplastic resin is first injected at an injection pressure of 27 MPa, and then injected. Injection was performed at an injection pressure of 2 to 19 MPa, and the wood was heat-compressed into a three-dimensional shape, and at the same time, an attachment member was formed on the back side of each wood by the thermoplastic resin to provide the wood and the attachment portion. .
Thereafter, the mold was cooled with water and cooled to 40 ° C. or less, thereby producing a composite molded product in which the attachment portions made of each wood and each thermoplastic resin were integrated.
The injection molding was performed under the conditions shown in Table 1 below using an injection molding machine NS60-9A manufactured by Nissei Plastic Industry Co., Ltd.
The wood in which the three-dimensional shape is formed, which constitutes the surface of each obtained molded body, has no warp or distortion that is a practical problem (0.5 mm or less). The wood surface was also smooth and glossy.
For example, bamboo No. 4 in Table 1 was measured with a handy gloss checker (manufactured by HORIBA, Ltd.) and had a gloss value of 2 before molding and a gloss value of 19 after molding.

Molding conditions / Preliminary drying of thermoplastic resin: 120 ° C., 5 hours / Cylinder temperature: 240 ° C.
-Mold temperature: 80 ° C
Water cooling after injection: 40 ° C or less · Injection 1 pressure: 27 MPa (15%)
・ Injection 2 pressure: 19-92MPa (5 levels in 10% increments of about 10-50%)
(However,% indicates the injection pressure of the above injection molding machine 184.7 MPa.
(Indicates output percentage of (100%))
-Cooling time (water cooling): 1 minute-Screw rotation speed: 100-150 rpm (extruding cylinder of the injection molding machine)

Table 1 shows the results of measurement of the type of wood used, injection 2 pressure, thickness direction compressibility, and surface hardness. The hardness of the wood (untreated) used in the present invention is also shown in Table 1.
Here, the compression ratio in the thickness direction (%) = (thickness of wood before test−thickness of wood after test) / thickness of wood before test × 100.
The surface hardness is a value obtained by measuring the surface hardness of each consolidated wood composite article obtained on the basis of the Japanese Industrial Standard (JIS) wood test method Z 2101 hardness test test method.
3A and 3B show photographs of the embossed compacted wood composite molded product obtained by using the bamboo 5 and the walnut 5 and having a three-dimensional shape.

  From Table 1 above, the compression ratio and hardness of the obtained molded product vary depending on the tree species depending on the conditions of injection 2 pressure, but the molding obtained by compressing each wood until there is no void in the wood cells The hardness of the product can be improved by 1.1 to 1.8 times.

Table 2 below shows the measurement results of the surface roughness before and after molding when the walnut 4 (injection 2 pressure is 74 MPa) obtained in Table 1 is used. FIG. 4 shows a photograph of the surface roughness measured at 100 times using a color 3D laser microscope (VK-8700; manufactured by Keyence Corporation). FIG. 4A shows the photograph of the walnut of the composite molded product obtained in this example, and FIG. 4B shows the photograph of the untreated walnut.
Note that the maximum depth, maximum roughness, and average roughness (according to JIS B 0601) in Table 2 are values calculated by the color laser microscope analysis software (shape analysis application VK-H1A1).

  As shown in Table 2 and FIG. 4, it can be seen that the smoothness of the surface of the obtained wood molded article is improved.

(Example 2)
As shown in Fig. 2, solid walnut wood (thickness 3mm x length 100mm x width 80mm) is placed on both sides of the injection mold, and the cylinder temperature is set at 240 ° C between the two pieces of wood. Then, a compacted wood composite molded article in which the wood and the polybutylene terephthalate resin were integrated was manufactured under the same conditions as in Example 1 except that the molten polybutylene terephthalate resin was injection molded at an injection pressure of 2 MPa of 74 MPa.
In FIG. 5, the photograph figure from the side of the obtained composite molded article is shown.
The wood having a three-dimensional shape that constitutes the surface of the obtained composite molded article had no warpage or distortion, and the wood surface was highly smooth and glossy.
When the gloss of the obtained compacted wood composite molded product was measured with a handy gloss checker (manufactured by Horiba, Ltd.), the walnut solid material (before molding) had a gloss value of 3, but was 20 after molding. .

(Example 3)
Pre-dried thermoplastic resin containing wood flour (wood flour resin; Falpack W-3501KA, manufactured by NOF Corporation, wood powder 50% by weight, polypropylene weight 50%) for 5 hours at 120 ° C. Was removed.
Solid bamboo laminated wood (thickness 3 mm × length 100 mm × width 100 mm) was placed in a three-dimensional mold for injection molding heated to 80 ° C.
Next, in the mold, on the back side of the installed wood, a wood powder resin melted by setting the temperature of the injection molding cylinder to 200 ° C. is injected with an injection pressure of 27 MPa and an injection pressure of 110 MPa. The wood was heat-compressed into a three-dimensional shape, and at the same time, an attachment member was formed on the back side of the wood to provide the wood and the attachment portion.
Thereafter, the mold was cooled with water and cooled to 40 ° C. or lower to produce a composite molded article in which wood and wood powder resin were integrated.
The injection molding was performed under the following conditions using an injection molding machine NS60-9A manufactured by Nissei Plastic Industry Co., Ltd.
The wood having a three-dimensional shape that constitutes the surface of the obtained composite molded article had no warpage or distortion, and the wood surface was highly smooth and glossy.
FIG. 3C shows a photograph of the compacted wood composite molded article having a bamboo skin finish in which the obtained three-dimensional shape is formed.
When the gloss of the obtained compacted wood composite molded product was measured with a handy gloss checker (manufactured by Horiba, Ltd.), the solid bamboo laminate (before molding) had a gloss value of 2, but it was 19 after molding. It was.
In addition, since the obtained composite molded product is composed of 50% by weight or more of wood, it can display a wooden product.

Molding conditions / preliminary drying: 120 ° C., 5 hours, cylinder temperature: 200 ° C.
-Mold temperature: 80 ° C
Water cooling after injection: 40 ° C or less · Injection 1 pressure: 27 MPa (15%)
・ Injection 2 pressure: 110 MPa (60%))
(However,% indicates the injection pressure of the above injection molding machine 184.7 MPa.
(Indicates output percentage of (100%))
-Cooling time (water cooling): 1 minute-Screw rotation speed: 100-150 rpm (extruding cylinder of the injection molding machine)

Example 4
Apply UV oil (trade name; UFO, manufactured by Otani Paint Co., Ltd.), an ultraviolet curable resin, to the surface of a solid walnut (thickness 3 mm x length 100 mm x width 80 mm) (the surface side of the three-dimensional composite molded product). A composite molded product in which the wood and the polybutylene terephthalate resin are integrated in the same manner as in Example 1 except that the wood was dried by a dryer at 40 ° C. for 2 hours without stickiness. Manufactured.
Using a UV irradiation device on the pre-applied UV oil coating surface of the wood constituting the resulting composite molded product, it is passed four times with one 80 W / cm lamp and a conveyor speed of 5 m / min, and a total light amount of 1200 mj / UV oil was cured under conditions of cm ² .
The three-dimensionally shaped wood that constitutes the surface of each composite molded article obtained has no warp or distortion that is practically problematic (0.5 mm or less), and the wood surface is very smooth. It was highly smooth and glossy.
When the gloss of the obtained compacted wood composite molded product was measured with a handy gloss checker (manufactured by Horiba, Ltd.), the walnut solid material (before molding) had a gloss value of 3, but after molding it was 39. .

(Example 5)
Solid walnut (thickness 33mm x width 240mm x length 2000mm) was blown with saturated steam at 160 ° C in a pressure vessel, heat-treated for 8 hours, and after drying this heat-treated material, thickness 3mm x length 100mm x A composite molded product in which the wood and the wood powder resin were integrated was produced in the same manner as in Example 3 except that wood wood having a width of 80 mm was placed and used in the molding die.
The wood having a three-dimensional shape, which constitutes the surface of each obtained composite molded product, had no gloss or warp and distortion, and the surface of the wood was highly smooth and glossy.
In addition, since the obtained composite molded product is composed of 50% by weight or more of wood, it can display a wooden product.

Urethane coating was performed four times on the entire wood surface of Example 1 (walnut, injection 2 pressure 110 MPa), Example 3 and Example 5. After drying, deformation (warpage) of each molded product was measured every 24 hours by performing the following humidification test or drying test. The amount of warpage was measured as shown in FIG.
Humidification test: 50 ° C., 95% RH × 48 hours Drying test: 80 ° C. × 48 hours The results are shown in FIGS. 7 and 8, respectively.

  In the case of Example 5, peeling, warping, and deformation of the thermoplastic resin and the wood were hardly observed. On the other hand, the composite molded products obtained in Examples 1 and 3 were slightly warped and slightly deformed between the thermoplastic resin and the wood by performing the humidification test and the drying test. There is no problem at all.

  INDUSTRIAL APPLICABILITY The present invention can be applied to automobile handles, interior panels, cruisers, home appliances, audio products, furniture, and the like, and in particular to manufacture molded products that form a wood surface having a three-dimensional solid surface. Is possible

1 Mold 2 Wood 3 Gap 4 Thermoplastic resin 5 Mounting part

Claims (6)

  Placing wood in a molding die, pressurizing and injecting molten thermoplastic resin to the back side of the wood, compressing the wood in the thickness direction and shaping it into a predetermined three-dimensional shape, A method for forming a consolidated wood composite molded article, comprising compacting wood and integrating the wood and the thermoplastic resin.   Install the wood so that it touches both sides in the molding die, press the molten thermoplastic resin between the woods under pressure, and compress the wood that will be the surface member of the resulting molded product in the thickness direction to a predetermined shape A method for molding a compacted wood composite molded article, characterized in that the two woods are compacted and the two woods and the thermoplastic resin are integrated.   3. The molding method for a compacted wood composite molded article according to claim 1, wherein the pressure injection of the molten thermoplastic resin is performed in two stages.   The method for molding a compacted wood composite molded article according to any one of claims 1 to 3, wherein the wood is heated in the air or in a saturated steam atmosphere before the wood is placed in the molding die. , Molding method of compacted wood composite molded product.   The method for molding a compacted wood composite molded article according to any one of claims 1 to 4, wherein the three-dimensional shape is formed on the side in contact with the molding die before the wood is placed in the molding die. A compacted wood composite, characterized in that an ultraviolet curing agent is pre-applied to the wood surface and the ultraviolet curing agent is cured by irradiating the wood surface of the integrated molded product with the ultraviolet curing agent. Molding method for molded products.   The method for molding a compacted wood composite molded article according to claim 1, wherein the thermoplastic resin contains a wood-based pulverized product.

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