KR20200000896A - Artificial marble and the method thereof - Google Patents

Abstract

The present invention relates to an artificial marble and a manufacturing method thereof. More specifically, the present invention relates to a method of manufacturing an artificial marble by using melamine resin, and an artificial marble manufactured by the method. An object of the present invention is to provide an artificial marble which simultaneously improves technical demerits in an existing artificial marble, and a manufacturing method thereof. The manufacturing method of the artificial marble comprises the steps of: injecting raw material including melamine resin into a stirrer to stir the raw material; injecting the stirred raw material into an extruder, extruding the stirred raw material into an extruded material with a predetermined shape, and cutting the extruded material to a predetermined length; applying resin chips for forming a granular pattern to the cut extruded material or applying a dye or pigment for forming a blood vessel pattern to the cut extruded material; molding the resin chip, or dye or pigment-applied extruded material into a plate having predetermined width, height and cross section; curing the molded plate to the temperature of 110 to 130°C under a pressure of 5 to 20 MPa for 10 minutes or more; and post-curing the cured plate to the temperature of 150 to 180°C for 2 to 6 hours.

Description

Artificial marble and its manufacturing method

The present invention relates to an artificial marble and a method for producing the same, and more particularly, to a method for preparing an artificial marble using a melamine resin and an artificial marble produced by the method.

Currently, artificial marble, which is mainly used as a counter top, sink top, table, etc., which is commercialized and manufactured, is classified into three categories.

First, there is a laminate in which marble-printed surface members are attached to the surface of wood-based materials such as fiber boards and chip boards.

Second, there is a solid surface which is cured by mixing natural stone or natural mineral powder or aluminum trihydrate (ATH) with acrylic resin.

Third, there is quartz stone, which is made of pulverized natural stone as the main material and bonded using unsaturated polyester resin or epoxy resin.

Since the laminate is manufactured by printing only the surface of the material in marble shape, the marble shape is not naturally connected to the cut surface or edge of the artificial marble, and if the material is cut and polished as necessary, the cross section does not maintain the artificial marble shape. Because of this, the aesthetic effect of natural marble is difficult to implement throughout the product.

Solid surface is a material that is cured by adding ATH, natural stone or powder of natural mineral to acrylic resin and adding dye, pigment, resin chip, etc. to realize the shape of natural stone. It is relatively light and easy to machine such as cutting and polishing, and has been spotlighted as artificial marble because there are no defects that can occur in natural stones such as internal cavity or microcracks. However, since the binder resin is an acrylic resin with low scratch resistance and low heat resistance, scratches are easily generated on the surface, and heat deformation and heat discoloration are easily caused by contact with a high-temperature kitchen utensil (eg, a frying pan). Have. In the manufacturing process, it is common to add a stirred raw material to a continuous flow line, followed by heat curing to complete a product.

In the case of quartz stone, the natural stone or natural mineral powder is combined with unsaturated polyester resin or epoxy resin, which greatly improves scratch resistance, which is a disadvantage of solid surface, and heat resistance is also improved by using minimal synthetic resin. As a substitute material for, its use area is gradually expanding. However, in most cases, about 90% or more of the material is composed of natural stone powder, etc., so that the weight of artificial marble is similar to that of natural stone, and machining of cutting and polishing is rather difficult. In the manufacturing process, agitated raw materials are put into a mold and cured by heating and pressurization. In most cases, vacuum is maintained during molding to remove gas generated during curing to minimize internal defects.

Since both the solid surface and the quartz stone have a unique marble shape on the surface and cross section of the material continuously, the unique shape is maintained like natural stone even after cutting or polishing. In order to implement, a mixture of dyes, pigments, resin chips, and the like may be mixed with each other to realize the shape of various artificial marbles through complete or partial stirring. There are two main types of artificial marble: first, the granular pattern of irregularly distributed particles of various sizes and colors, and second, the color of contrasting marble base color with discontinuous or continuous blood vessel shape. It is classified as an irregularly distributed veined pattern.

Patent Application Publication No. 10-0833273 Patent Registration No. 10-1251098 Patent Registration No. 10-1316478 Patent Registration No. 10-1660767

The first object of the present invention devised to solve the above problems is to provide an artificial marble and a method of manufacturing the same that improves the technical disadvantages of the existing artificial marble at the same time. That is, in the case of laminate, the unique shape of marble is not realized in the whole cross section, in the case of solid surface, the marble shape is implemented in the whole cross section, and it is relatively light but the scratch and heat resistance is weak. Implemented in the whole and the scratch resistance has been improved, but it is to provide an artificial marble and a manufacturing method that improved both the weight and difficult processing at the same time.

The second object of the present invention, as in the existing solid surface or quartz stone, as well as various marble shapes implemented on the whole surface of artificial marble, as well as unique marble shapes that can not be realized due to the nature of the stirring process according to the prior art freely It is to provide a possible artificial marble and a method of manufacturing the same.

The third object of the present invention is to form a unique shape and material of the artificial marble provided by the present invention, not limited to the entire cross-section of the product, but to the upper and lower surfaces of a certain thickness and to the perimeter of the end portion of a predetermined width, and the center portion is expanded melamine foam. The present invention provides an artificial marble and a method for producing the same, which can significantly lower the weight of the entire product.

In order to achieve the above object, the present invention, the raw material containing the melamine resin is added to the stirrer and stirred; Injecting the stirred raw material into an extruder to extrude a predetermined shape, and cutting the extruded extrudate to a predetermined length; Applying a resin chip for forming a particle shape or a dye or pigment for forming a blood vessel shape to the cut extrudate; Molding the resin chip or the extrudate to which the dye or pigment is coated into a plate having a predetermined width, height, and cross section; Curing the molded plate at a temperature of 110 ° C. to 130 ° C. for at least 10 minutes under a pressure of 5 to 20 MPa; And post-curing the cured plate at a temperature of 150 ° C. to 180 ° C. for 2 to 6 hours. Provides a method of manufacturing artificial marble, characterized in that consisting of.

In the present invention, the raw material containing melamine resin is 32 to 75% by weight of melamine resin, 25 to 60% by weight of any one of glass fibers, natural fibers or artificial fibers, 0 to 3% by weight of dyes or pigments, sunscreen 0 ~ 3% by weight and 0 to 2% by weight of the antioxidant.

In the present invention, the photoluminescent powder is further added to the raw material, and the photoluminescent powder is 0 to 15% by weight based on the total weight of the raw material and the photoluminescent powder.

In the present invention, the resin chip for forming the particle shape is characterized in that 0 to 20% by weight relative to the total weight of the raw material and the resin chip.

In the present invention, the dye or pigment for forming a blood vessel shape, characterized in that 0 to 3% by weight relative to the total weight of the raw material and the dye or pigment.

In the present invention, between the plate forming step and the hardening step further comprises the step of forming a expandable plate, the step of forming the expandable plate, adding the expandable raw material to which the blowing agent is added to the melamine resin to agitate by stirring step; Impregnating the stirred expandable raw material into any one of glass fibers, natural fibers or artificial fibers; Solidifying the melamine resin by precuring the expandable raw material impregnated in the fiber at a temperature of 30 to 50 ° C. for 5 to 10 hours; Forming a top, a bottom, and a side with the plate formed in the plate forming step to cavify the inside, and filling the cavified portion with an expandable raw material in which the melamine resin is solidified; And forming the expandable plate filled with the expandable raw material into an expandable plate having a predetermined width, height, and cross section.

The expandable raw material in the present invention is characterized by consisting of 80 to 95% by weight of the melamine resin and 5 to 20% by weight of the blowing agent.

In the present invention, the fiber is characterized in that 20 to 50% by weight of the total weight including the fiber and the expandable raw material.

The artificial marble produced by the present invention is characterized by having an effective density of 0.3 to 1.6 g / cm 3.

The present invention has the advantage that the inherent shape of the marble is implemented throughout the cross section, that it is light and has high scratch and heat resistance, and is easy to process.

In addition, the present invention, as in the conventional solid surface or quartz stone, as well as various marble shapes implemented on the entire surface of the artificial marble, as well as the unique marble shape that can not be implemented due to the characteristics of the stirring process according to the prior art can be freely implemented have.

In addition, the present invention is formed by forming the unique shape and material of the artificial marble is limited to the upper and lower surfaces and a constant width of the end portion of a certain thickness rather than the entire product cross-section, and the center portion is formed of expanded melamine foam, thereby increasing the weight of the entire product There is an advantage that can be significantly lowered.

1 is a flow chart for the manufacturing method of artificial marble according to the present invention.
FIG. 2 is a flow chart of a method of forming an expandable plate in FIG. 1. FIG.
Figure 3 is a first embodiment of artificial marble prepared according to the present invention.
Figure 4 is a second embodiment of the artificial marble prepared in accordance with the present invention.
5 is a third embodiment of artificial marble made in accordance with the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, this is only to describe in detail enough to be able to easily carry out the invention by those skilled in the art, which does not mean that the technical spirit and scope of the present invention is limited.

Figure 1 is a flow chart for a method of manufacturing artificial marble according to the present invention, Figure 2 is a flow chart for a method for forming a expandable plate in Figure 1, Figure 3 is a first embodiment of the artificial marble produced in accordance with the present invention 4 is a second embodiment of artificial marble prepared according to the present invention, and FIG. 5 is a third embodiment of artificial marble made according to the present invention.

Melamine resin as a bonding material of artificial marble has a higher scratch resistance and higher heat resistance or better strength than acrylic, epoxy, and polyester resins after curing. Since it is difficult to apply to the process, it is mainly used as a resin chip added to a bonding material such as acrylic to realize a granular pattern of marble rather than a bonding material of artificial marble.

In the present invention, by providing a composition and production process for producing artificial marble using a melamine resin as a bonding material of artificial marble, while excellent in scratch resistance and heat resistance than the existing solid surface, natural stone or quartz stone Compared with the low weight and easy to machine artificial marble is provided. The inherent disadvantage of melamine resin, which is brittle after curing, is to uniformly distribute the glass fiber in a weight ratio suitable for the melamine-bonded resin structure throughout the product thickness, thereby giving the appropriate mechanical properties required as artificial marble. In the present invention, the fiber is added to supplement the mechanical properties of the melamine bonding resin is not limited to glass fiber. That is, in addition to the glass fiber can be carried out by replacing or paralleling the glass fiber with natural or artificial fibers such as cellulose fibers, wool fibers, hemp fibers, basalt fibers, ceramic fibers, in the present invention, such natural fibers, artificial fibers and glass fibers Also commonly referred to as 'fiber'.

The artificial marble produced according to the present invention can be freely used in the range of 0.3 g / cm ³ to 1.6 g / cm ^{3 of} effective density (the total weight of the finished product divided by the total volume of the finished product) according to the manufacturing process. For the convenience of description of the present invention, artificial marble in the range of 0.30 g / cm ³ to 0.99 g / cm ³ having an effective density lower than 1.0 g / cm ³ of water density is referred to as 'ultralight artificial marble'. do.

As shown in Figure 1, the method of manufacturing artificial marble according to the present invention, the step of adding the raw material containing melamine resin to the stirrer and stirring (S1), and the input of the stirred raw material to the extruder extruded in a predetermined shape And cutting the extruded extrudate to a predetermined length (S2), and applying a resin chip for forming a particle shape or a dye or pigment for forming a blood vessel shape (S3). ), And molding the resin chip or the extrudate to which the dye or pigment is applied to a plate having a predetermined width, height, and cross section (S4), and the molded plate to 5 to 20 at a temperature of 110 ° C to 130 ° C. Curing at least 10 minutes under a pressure of MPa (S5), and the step of curing the cured plate to a temperature of 150 ℃ to 180 ℃ for 2 to 6 hours (S6).

In the artificial marble manufacturing method according to the present invention, the raw material containing the melamine resin is first subjected to a step (S1) of stirring and stirring. The raw material containing the melamine resin is added to the stirrer and stirred at room temperature for 30 to 60 minutes. That is, to prepare a stirrer equipped with a stirring blade driven by a motor for stirring the raw material containing the melamine resin, the raw material melamine resin, glass fibers (natural fibers or artificial fibers), dyes or pigments, phosphorescent powder, Add a sunscreen or antioxidant and stir until the ingredients are evenly mixed. The raw materials containing melamine resin include melamine resin, glass fiber, dye or pigment, sunscreen, antioxidant, etc., and the composition ratio is 32 to 75% by weight of melamine resin, fiber of any one of glass fiber, natural fiber or artificial fiber 25 to 60% by weight, 0 to 3% by weight dye or pigment, 0 to 3% by weight sunscreen and 0 to 2% by weight antioxidant. Essential ingredients of the raw materials are melamine resins and fibers such as natural fibers, artificial fibers or glass fibers. Since the melamine resin is white in itself, no additional dye or pigment is required to make the artificial marble white. However, when the artificial marble is to be manufactured in a desired color other than white, a suitable dye or pigment is required. Thus, dyes or pigments are produced either naturally or synthetically and are added to color artificial marble in the desired color. The amount added is 0 to 3% by weight. The sunscreen is also used to prevent deterioration of the artificial marble material and color change by ultraviolet rays, and may be added as necessary, and the amount thereof is 0 to 3% by weight. In addition, the antioxidant may be added to prevent the oxidation of the artificial marble to prevent changes in the material or color changes caused by the oxidation, the amount is 0 to 2% by weight.

As used in the present invention, as described above, natural fibers, artificial fibers or glass fibers are used. In one embodiment, the glass fiber is a long fiber glass fiber having a diameter of 5 to 10 μm cut into a length of 10 mm to 50 mm, and the component is 37 to 60% SiO ₂ and 20 to CaO by weight ratio. 25%, Al ₂ O ₃ 12-16%, B ₂ O ₃ 8-13%, MgO 0-6%, Na ₂ O 0-1%, K ₂ O 0-1%, TiO ₂ 0 to 0.5%, Fe ₂ O _{3 It} contains 0 to 0.5%.

The melamine resin used in the present invention is composed of a melamine resin (CAS No. 9003-08-01) having a weight ratio of 99.01 to 100% and formaldehyde (CAS No. 50-00-0) of 0 to 0.99%. .

The photoluminescent powder used in the present invention is added when natural or synthetic materials are intended to add a photoluminescent function to artificial marble, and when a photoluminescent powder having a unique color is added, dyes or pigments may not be used. The phosphorescent powder may be added in an amount of 0 to 15% by weight based on the total weight of the raw materials and the phosphorescent powder.

Next, the stirred raw material is introduced into an extruder and extruded into a predetermined shape, and the extruded extrudate is cut into a predetermined length (S2). That is, the stirred raw material is put into an extruder pushed by a rotating spiral blade, and the raw material is extruded from an extruder having a specific shape to have a specific extrusion cross section. That is, in order to produce a granular artificial marble, a plate-shaped extruded cross section having a constant thickness is used, and in order to produce a blood vessel-shaped artificial marble, the extruded cross sections are arranged and extruded at various shapes and extrusion cross-sectional sizes. That is, in order to manufacture the vascular shaped artificial marble, a plurality of extruded cross sections are formed and extruded simultaneously, for example, extruded simultaneously in an extruded cross section having a triangular, square, and circular cross section. The raw material discharged from the extruder is cut to a constant length by a rotary cutter installed at the extrusion exit. The length of the cut raw material is about 5mm ~ 30mm, which can be freely adjusted by the rotational speed of the cutting blade.

Next, the step of applying a resin chip for forming a particle shape to the cut extrudate or a dye or pigment for forming a blood vessel shape (S3).

The melamine resin chip used in the present invention is cured by adding a dye or pigment of the desired color to the same melamine resin as the melamine resin as a bonding material, and then pulverized into an irregular shape and size, the size of which is 0.5 to 7 mm. The cut extrudate can be transported by a motor-driven continuous flow belt or manually at a specific transport speed. The resin chip applicator installed on top of the extrudate transport path uniformly distributes the necessary resin chips to the raw materials according to the marble shape. At this time, the coating amount per unit flow area can be freely adjusted by adjusting the transport speed of the raw material and the resin chip coating weight per hour. Melanin resin chips are required to produce artificial marble in the form of particles, as described above.

In order to manufacture the vessel-like artificial marble, a dye or pigment of a desired color is applied to the extrudate being transported in a pattern determined according to the marble shape by a dye or pigment applicator installed on the extrudate transport path instead of the resin chip. The extrudate for forming the blood vessel shape is cut in a state in which extrudates of various patterns are extruded at the same time. Since the extrudate is formed in various shapes, dyes or pigments may be applied between the extruded extrudate.

Next, the resin chip or the extrudate to which the dye or pigment is applied is molded into a plate having a predetermined width, height, and cross section (S4).

The extrudates coated with melamine resin chips or dyes or pigments are formed into plate materials while passing between motor-driven continuous flow lines or rollers installed manually to have a cross section of constant width and height. At this time, through a plurality of rollers to sequentially reduce the width and thickness as needed to minimize the cavity (cavity) formed by the air introduced into the raw material.

In addition, it is possible to manufacture expandable plate using the molded plate. In order to manufacture ultra-light artificial marble, which is a form of the product manufactured by the present invention, an expandable sheet for forming an expanded melamine foam is required in the center of the product. In order to manufacture the expandable plate devised by the present invention, as shown in Figure 2, it undergoes the following process. Expandable sheet molding process, the step of adding the expandable raw material to which the blowing agent is added to the melamine resin in the stirrer (S411), and the stirred expandable raw material of any one of glass fibers, natural fibers or artificial fibers Impregnating in 412, solidifying melamine resin by precuring the expandable raw material impregnated in the fiber at a temperature of 30 to 50 ° C. for 5 to 10 hours (413), and molding in the sheet forming step Forming a top, a bottom, and a side of the plated material to cavify the inside, and filling the cavified portion with the expandable raw material in which the melamine resin is solidified (414); And forming 415 into a plate having a height and a cross section.

In the step of preparing a expandable plate, first, a melamine resin, which is an expandable raw material, and a predetermined amount of blowing agent are added to a stirrer, and stirred until uniformly mixed (S411). The melamine resin used is the same as the material used to produce the granular or vascular shaped artificial marble, and 80 to 95% of the total weight of the expandable raw material is applied. In addition to the melamine resin for expansion, a blowing agent is applied to an expandable microsphere which is widely used for industrial purposes. The microsphere applied in the embodiment of the present invention was applied to Expancel® Model No. 642 WU 40 of Akzo Nobel, but for the implementation of the present invention may be applied to other models of the company or expandable Microsphere of other companies. In addition, the blowing agent (blowing agent) is applied 5 to 20% of the total weight of the expandable raw material.

Next, a step 412 of impregnating the stirred expandable raw material into any one of fiberglass, natural fiber or artificial fiber is performed.

The expandable raw material stirred by the present invention is impregnated into any one of glass fibers, natural fibers or artificial fibers through roller impregnation or spray impregnation. At this time, when the combined weight of the expandable raw material and the fiber as the total weight, the fiber weight is 20% to 50% of the total weight, the weight of the expandable raw material is 50% to 80% of the total weight. In the present invention, the glass fiber was used as an embodiment, and the weight of the glass fiber is as mentioned above.

Next, a step 413 of solidifying the melamine resin is performed by precuring the expandable raw material impregnated into the fiber at a temperature of 30 to 50 ° C. for 5 to 10 hours.

When the expandable raw material is impregnated with glass fiber, it is very difficult to perform the filling process, which is the next step in the production of artificial marble, as if it is a wet cloth. Therefore, the glass fiber impregnated in the expandable raw material is precured in the temperature range of 30 ℃ to 50 ℃ for 5 to 10 hours to solidify the melamine resin. At this time, the melamine resin is partially cured, not completely cured, and complete curing occurs in the subsequent curing and post-curing processes.

Next, forming the upper, lower and side by the plate formed in the sheet forming step (S4) to cavify the inside, and the step of filling the cavitation portion of the expandable raw material of the melamine resin solidified (414) . In the present invention, the side surface may be formed of both sides facing or all four sides.

The filling process of the expandable raw material is laminated to the plate (manufactured to realize the granular and vascular shaped artificial marble) of the upper plate, the lower plate and the side plate to manufacture the ultra-light artificial marble according to the present invention, The cavity is filled with expandable raw materials.

Next, an expandable plate is manufactured through a step 415 of forming a plate filled with expandable raw materials into an expandable plate having a predetermined width, height, and cross section.

At this time, the effective density of ultra-light artificial marble can be determined by the following formula. In addition, the effective density of the ultra-light marble can be freely adjusted by controlling the thickness of the artificial marble, the total weight of the general plate made of the raw material and the expandable raw material, respectively or simultaneously.

Effective density of ultralight artificial marble, d:

d = (W1-W2) / V

W1: Total weight of laminated material (laminated gross weight of plate material made of raw material + laminated gross weight of expansion plate material)

W2: Loss weight due to vaporization during curing and post-curing process (experimental measured value)

V: Total volume (width x length x thickness) of the ultralight marble that has been cured and postcured

Next, the molded plate is subjected to curing (S5) for 10 minutes or more under a pressure of 5 to 20 MPa at a temperature of 110 ° C to 130 ° C.

The molded sheet is transported by a motor-driven continuous flow line or manually and cured for 10 minutes or more under a pressure of 5 to 20 MPa at a temperature of 110 to 130 ° C. The pressurized belt type continuous press can be used for continuous flow production, or the plate produced in the previous process can be put into a forming mold for batch production and hardened using a multi-layer hydraulic press. In order to manufacture the ultra-light artificial marble according to the present invention, the intermediate processed product laminated in the previous process may be put into a molding mold and hardened by using a single layer or a multilayer hydraulic press. At this time, the expandable plate is formed in the form of open cell foam in the middle part of the molded product by heat reaction, and the plate for realizing the artificial marble particle shape or blood vessel shape is cured in the form surrounding the foam in the middle part to make the ultra-light artificial Made of marble.

Next, the cured plate (including the expandable plate) is subjected to post-curing (S6) for 2 to 6 hours at a temperature of 150 ° C to 180 ° C.

The artificial marble prepared through the curing process may be subjected to post-curing for an additional 2 to 6 hours at a temperature of 150 ° C. to 180 ° C. to increase chemical corrosion resistance of the manufactured artificial marble and to remove volatile residual gas.

3 shows a photograph of the artificial marble 10 of the particle shape 11. As shown in the figure, it has a shape in which particles are formed on the surface of artificial marble, and as described above, it can be obtained by introducing a melamine resin chip.

4 shows a photograph of the artificial marble 10 'of the blood vessel shape 11'. The vessel-like artificial marble 10 'is manufactured by adding a dye or a pigment to a raw material. If the photoluminescent powder is added, it may not be necessary to add a dye or pigment when the photoluminescent powder has a unique color.

FIG. 5 shows a photograph of an ultra-light artificial marble 10 " manufactured by stacking artificial marble of the particle shape 11 into an upper plate, a lower plate and a side plate, and filling an expandable raw material 12 therein. The inside is filled with the expandable raw material 12, the outside is shown only in the shape of particles, but when using a plate formed with a blood vessel shape may be a blood vessel shape. Because of this, the weight of artificial marble can be significantly reduced, thus making it possible to manufacture ultra-light artificial marble.

Although the embodiments have been described above by way of example, it will be apparent to those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope thereof. Accordingly, the above-described embodiments should be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents shall be included within the scope of the present invention.

S1 ~ S6: Flowchart
10: granular artificial marble 10 ': vascular artificial marble
10 ": Particle Shape Ultralight Artificial Marble
11: Particle shaped plate 11 ': Vascular plate
12: expandable raw materials

Claims (9)

Adding a raw material containing melamine resin to a stirrer and stirring;
Injecting the stirred raw material into an extruder to extrude a predetermined shape, and cutting the extruded extrudate to a predetermined length;
Applying a resin chip for forming a particle shape or a dye or pigment for forming a blood vessel shape to the cut extrudate;
Molding the resin chip or the extrudate to which the dye or pigment is coated into a plate having a predetermined width, height, and cross section;
Curing the molded plate at a temperature of 110 ° C. to 130 ° C. for at least 10 minutes under a pressure of 5 to 20 MPa; And
Post-curing the cured plate at a temperature of 150 ° C. to 180 ° C. for 2 to 6 hours;
Method for producing artificial marble, characterized in that consisting of.
The method of claim 1,
The raw material containing the melamine resin,
32 to 75% by weight of melamine resin, 25 to 60% by weight of fiberglass, natural fiber or artificial fiber, 0 to 3% by weight of dye or pigment, 0 to 3% by weight of sunscreen and 0 to 2% of antioxidant Method for producing artificial marble, characterized in that consisting of.
The method of claim 2,
The photoluminescent powder is further added to the raw material, and the photoluminescent powder is 0 to 15% by weight of the total weight of the raw material and the photoluminescent powder.
The method of claim 1,
The resin chip for forming the particle shape, artificial marble, characterized in that 0 to 20% by weight relative to the total weight of the raw material and the resin chip.
The method of claim 1,
The dye or pigment for forming the blood vessel shape, artificial marble, characterized in that 0 to 3% by weight relative to the total weight of the raw material and the dye or pigment.
The method of claim 1,
Between the plate forming step and the hardening step further comprises the step of forming an expandable plate,

Forming the expandable sheet material,
Adding an expandable raw material to which a blowing agent is added to the melamine resin and stirring the mixture;
Impregnating the stirred expandable raw material into any one of glass fibers, natural fibers or artificial fibers;
Solidifying the melamine resin by precuring the expandable raw material impregnated in the fiber at a temperature of 30 to 50 ° C. for 5 to 10 hours;
Forming a top, a bottom, and a side with the plate formed in the plate forming step to cavify the inside, and filling the cavified portion with an expandable raw material in which the melamine resin is solidified; And
Molding the plate filled with the expandable raw material into an expandable plate having a predetermined width, height, and cross section;
Method for producing artificial marble, characterized in that consisting of.
The method of claim 6,
The expandable raw material,
80 to 95% by weight of the melamine resin, and 5 to 20% by weight of the blowing agent.
The method of claim 6,
The fiber is a method of manufacturing artificial marble, characterized in that 20 to 50% by weight of the total weight of the fiber and the expandable raw material.
The artificial marble produced according to any one of claims 1 to 8 has an effective density of 0.3 to 1.6 g / cm 3.

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