KR101875579B1 - Manufacturing method for vehicle interior parts - Google Patents

Abstract

The present invention relates to a method of manufacturing a composite material for automotive interior parts, wherein a board having a polymer resin layer formed on a natural fiber nonwoven fabric is applied as a matrix, and rigid steel ribs, And simultaneously, it is excellent in rigidity improvement and weight reduction.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for manufacturing a composite material for automobile interior parts,

The present invention relates to a method of manufacturing a composite material for automotive interior parts, and more particularly, to a method of manufacturing a composite material for automobile interior parts including natural fibers and polymer resins. And more particularly, to a method of manufacturing a composite material for automotive interior parts that can be molded.

As global warming raises environmental pollution problems, social regulations and regulations are strengthened. Therefore, automobile industry is constantly demanding the application of eco-friendly materials, light weight of automobile parts for improving fuel efficiency and reducing emission of exhaust gas .

In the automotive interior parts industry, the main element technology for lightening is the fiber reinforced composite material technology, which is superior in physical properties compared with the polymer composite resin and can save weight. As disclosed in Korean Patent Publication No. 10-2013-0081488, a fiber reinforced composite material using glass fiber as a reinforcing material is applied to various parts such as head lining, covering self, and package tray. The fiber-reinforced composite material is lightweight and can contribute to weight reduction of automobiles, and has a good mechanical property.

However, the product to which the above-mentioned glass fiber is applied can be reduced in weight. However, since the glass fiber is not decomposed in the natural state when it is disposed of after use, it may cause environmental pollution and the working environment due to the glass dust is harmful to the human body. It is disadvantageous in that the product cost is high due to the complexity compared with the injection product using the existing polymer composite resin.

Natural fiber is a material that can be taken from nature. It is decomposed in nature, so it is not only an environmentally friendly material, but it is also inexpensive and has comparable physical properties to glass fiber. , Which uses natural fibers as a reinforcing material and a natural fiber reinforced composite material using a thermoplastic polymer such as polypropylene as a matrix, produces a product that achieves a weight reduction of about 25% compared to conventional polymer composite products.

However, automobile parts using natural fiber / polypropylene composite materials can be lighter than injection molded products using conventional polymer composite resins. However, it is difficult to expand the use of automobile parts other than advanced automobiles due to the complexity of the molding process. However, It is necessary to develop a process capable of reducing the material and unit cost so that it can be further reduced in weight in order to meet the needs of responding to social needs and social needs.

The present invention relates to a method of manufacturing a composite material for automotive interior parts.

An object of the present invention is to provide a method for manufacturing a composite material for an interior eco-friendly vehicle including natural fibers and a polymer resin.

It is another object of the present invention to provide a method of manufacturing a composite material for automotive interior parts, which is excellent in lightness while securing rigidity by applying a polymer resin having excellent rigidity.

A further object of the present invention is to provide a method for manufacturing a composite material for automotive interior parts which can simplify the process and reduce the process cost by rearward injection of ribs and brackets at the time of product molding, do.

The embodiments of the present invention are described in order to more fully explain the present invention to those skilled in the art, and the following embodiments may be modified into various other forms, It is not limited to the embodiment. Rather, these embodiments are provided so that this disclosure will be more faithful and complete, and will fully convey the scope of the invention to those skilled in the art.

In the drawings, the thickness and size of each layer are exaggerated for convenience and clarity of description, and the same reference numerals refer to the same elements in the drawings. As used herein, the term "and / or" includes any and all combinations of one or more of the listed items.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms "a," "an," and "the" include singular forms unless the context clearly dictates otherwise. Also, " comprise "and / or" comprising "when used herein should be interpreted as specifying the presence of stated shapes, numbers, steps, operations, elements, elements, and / And does not preclude the presence or addition of one or more other features, integers, operations, elements, elements, and / or groups.

The nonwoven fabric of the present invention means that the fiber aggregate or film is treated physically, chemically, mechanically, or with appropriate water or heat without depending on the spinning, weaving and face-to-face bonding.

In the present invention, a thermoplastic polymer means a polymer resin which can be deformed when heat is applied thereto after heat is applied thereto.

In the present invention, trimming refers to an operation of cutting or pulling out unnecessary edges or films of a product produced by press working or casting.

In one embodiment of the present invention, the present invention provides a method for producing a nonwoven fabric comprising the steps of: 1) preparing a nonwoven fabric comprising cellulose-based natural fibers; 2) impregnating the nonwoven fabric produced in the step 1) with a liquid polymer resin; 3) drying the nonwoven fabric impregnated with the polymer resin of step 2) to prepare a board; 4) pressing and plasticizing the board of step 3); And 5) product molding the plasticized board in step 4), wherein the product molding step in step 5) comprises: 5-1) compression molding the plasticized board; 5-2) Rear-injection of the ribs and the bracket simultaneously with the compression molding in the step 5-1); And 5-3) a step of trimming the composite material.

Specifically, the above step 1) is a step of producing a nonwoven fabric by a) operating a fiber, b) mixing a fiber, c) feeding a hopper, d) ) Process e) a web bonding process or the like. The steps a) and b) are a step of metering and mixing the raw material of the nonwoven fabric so that the raw material of the nonwoven fabric can be a precise mixture, and step c) is a step of mixing the serrated wires of the tether, cylinder, walker, And the web form of step c) is too thin, so that if necessary, the web form is rolled up. The nonwoven fabric is produced by the steps a) to e).

The nonwoven fabric prepared in the step 1) is impregnated with the liquid polymer resin in the step 2). More specifically, in step 2), the polymer resin is impregnated by pressing the roll. When the liquid polymer resin is impregnated, the core portion is composed of a low density natural fiber / polymer composite material layer, and the outer layer is composed of a high density natural fiber / polymer composite material layer. The liquid polymer in the liquid state is impregnated to form a polymer resin layer on both sides of the nonwoven fabric. Due to the impregnation, the polymer in the liquid state penetrates into the nonwoven fabric, and the penetration of the polymer resin is relatively small , A low density natural fiber / polymer composite material layer, and a relatively high density polymer resin outer layer can be distinguished as a high density natural fiber / polymer composite material layer.

 The nonwoven fabric having the polymer layer formed in the step 2) is formed into a board form through a drying process. That is, when the polymer resin layer in a liquid state is formed, the polymer resin layer is dried through the drying process in step 3), and a polymer resin layer dried on both sides of the board or the nonwoven fabric having a dried polymer resin layer on one side of the non- To form the formed board. Step 4) is a plasticizing step, and plasticizing step is to homogenize by dissolving plastic. Therefore, the board produced in the step 3) is compressed, plasticized, melted and homogenized. Step 5) is a product molding step, in which the board manufactured in steps 1) to 4) is molded into a product for use in automotive interior parts. The product forming step in the step 5) may be more specifically: 5-1) compression molding the plasticized board; 5-2) Rear-injection of the ribs and the bracket simultaneously with the compression molding in the step 5-1); And 5-3) trimming.

In one embodiment of the present invention, the cellulosic natural fibers of the present invention are 40 to 80 mm in length and are selected from the group consisting of yam jute, flax, hemp, kenaf, Sisal, coir, banana fibers, bamboo, and mixtures thereof, but are not limited to examples. The natural hemp fibers are polar polymers containing cellulose as a main component, and the cellulose base is characterized by excellent dimensional stability at a high temperature and high heat resistance. Also, since it is an environmentally friendly material that can be decomposed by nature, it reduces the possibility of environmental pollution.

In one embodiment of the present invention, the polymer resin of the present invention is an acrylic resin capable of being cold-formed, and the acrylic resin is in a liquid phase dispersed in water or an organic solvent. A general acrylic resin can be hot-formed and can not be cold-formed, but the acrylic resin of the present invention can be cold-formed.

Generally, since the acrylic resin is a thermoplastic polymer resin, cold molding is possible. However, in order to realize high rigidity, the acrylic resin used for the base material of automobile interior parts is made of an acrylic resin having a molecular structure capable of crosslinking, and after the crosslinking reaction is completed, the above resin does not have fluidity The hot forming process has been applied. The acrylic resin used in the present invention is a type in which a molecule responsible for rigidity is bonded to a molecule responsible for rigidity and is polymerized in a co-polymer form, and is subjected to heat treatment after crosslinking reaction, . Also, the part where the stiffness decreased with the increase of the elongation was supplemented by adding crosslinkable monomer to improve the crosslink density. Therefore, it is possible to perform cold forming while maintaining rigidity similar to that of acrylic resin which can only be formed by conventional hot forming, so it is possible to inject ribs and brackets using thermoplastic resin during molding. The acrylic resin is used in the form of a liquid phase dispersed in water or an organic solvent and used for forming the polymer resin layer in the step 2). The acrylic resin is used for the viscosity of the composite material for automobile interior parts, It is preferable to adjust the concentration of the liquid phase appropriately in consideration of the strength and the like.

In one embodiment of the present invention, step 3) of the present invention is compression molding by hot pressing to plasticize. By heating and sintering while pressing uniaxially using a hot press, the board is melted and homogenized due to unpressurized heating.

In one embodiment of the present invention, step 5-1) of the present invention relates to compression molding in a cold die. Step 5-1) is a step of compressing and molding the board manufactured in steps 1) to 4), and more specifically, compression molding in a cold die. The cold mold means the mold used in the cold forging process. In order to use it in the cold forging mold, it is required to use materials which can withstand breakage and abrasion because it is subjected to extremely high processing pressure. Further, in the case of compression molding by the cold forging process, (a) there is no scale loss due to heating, and even if there is no loss of the product, the material recovery rate is good because the amount is extremely small and (b) The machining of the post-process is unnecessary, or the number of machining holes is greatly reduced, so that the dimensional accuracy of the product is high. However, since the acrylic resin of the present invention can be subjected to a cold forging process rather than a hot forging process, it is possible to carry out a cold forging process in the 5-1) process, not a hot forging process It is possible to proceed.

In one embodiment of the present invention, the weight of the nonwoven fabric produced by step 1) of the present invention is 400 g / m ² to 1,200 g / m ² . If the weight of the nonwoven fabric is less than 400 g / m ² , the moldability is deteriorated. If the weight of the nonwoven fabric exceeds 1,200 g / m ² , it is difficult to reduce the weight by increasing the weight per unit area.

In one embodiment of the present invention, the composite material for an automotive interior part of the present invention may include 80 to 20% by weight of a nonwoven fabric and 20 to 80% by weight of a polymer resin. When the nonwoven fabric is contained in an amount of less than 20% by weight, the physical properties of the nonwoven fabric are deteriorated. If the nonwoven fabric content is more than 80% by weight, the content of the polymer resin is decreased. If the polymer resin is contained in an amount of less than 20% by weight, molding may not be easy. If the polymer resin is contained in an amount exceeding 80% by weight, physical properties may deteriorate.

In one embodiment of the present invention, the weight of the board produced by step 3) of the present invention is 600 to 1,800 g / m ² . When the weight of the board is less than 600 g / m ² , the weight is too small and durability for use in automobile interior parts is not suitable. When the weight exceeds 1,800 g / m ² , There is a problem that is not suitable for use.

In one embodiment of the present invention, the ribs and briquettes of the present invention comprise a thermoplastic polymer resin, wherein the thermoplastic polymer resin is selected from the group consisting of a polypropylene composite resin, a nylon composite resin, a polyvinyl chloride composite resin, an acrylonitrile-butadiene- Is at least one selected from the group consisting of an ABS resin, an acrylic composite resin, a polyethylene (PE) composite resin, a polycarbonate (PC) composite resin, a polyester (PET) composite resin and a polystyrene (PS) Is a polypropylene or nylon composite resin, but is not limited to the examples.

In one embodiment of the present invention, the present invention relates to a composite material for automobile interior parts manufactured by the above-described manufacturing method. Examples of the composite material for an automotive interior part include a head liner, a rear shelf, a package tray, a door trim, an instrument panel, and a pillar Trim), and the like, and are not limited to the examples.

The present invention relates to a method for manufacturing a composite material for automobile interior parts, and, in particular, to a method for manufacturing a composite material for automotive interior parts, which uses a composite material including natural fibers and a polymer resin, The ribs are injected to the rear surface of the composite material for automobile interior parts, and the rigidity is further strengthened. Further, it is possible to further reduce the weight, and at the same time, the bracket can be injected at the time of product molding , It is possible to shorten the process of attaching the bracket by a separate injection process in the conventional method for manufacturing a composite material for an automotive interior part, and it is possible to reduce the process cost by simplifying the process.

1 is a flowchart showing a process for manufacturing a composite material for an automotive interior part according to the present invention.
2 is a sectional view of a board according to the present invention.
3 is a structural view of a composite material for automotive interior parts according to the present invention.
100: Low density natural fiber / polymer composite layer
200: High density natural fiber / polymer composite layer
300: Board
400: rib
500: Bracket

1 is a flow chart of a process for manufacturing a composite material for an automotive interior part according to the present invention. Specifically, FIG. 1 illustrates a manufacturing process in the form of a continuous process. In the first step, a nonwoven fabric is prepared and a nonwoven fabric is prepared (S100). Thereafter, a step of forming a polymer resin layer on the nonwoven fabric , S200 relates to impregnating the polymer resin by pressing the roll. S300 represents a prepreg produced by impregnating a polymer resin, and the prepreg produced in S300 is cut at S400 to produce a board. The prepreg is an abbreviation of preimpregnated materials and is a sheet-like product impregnated with a reinforcing fiber. Thereafter, the cut board is heat-pressed (S500) and homogenized. The hot-pressed board is subjected to product molding (S600), the product molding is carried out by cold forming, and at the same time, the rib and the bracket can be attached through the rear injection (S610). The conventional composite material for automobile interior parts requires a separate injection process for attaching the rib and the bracket. However, as shown in FIG. 1, since the present invention is capable of rearward injection simultaneously with product molding, Will not be necessary.

Generally, since the acrylic resin is a thermoplastic polymer resin, cold molding is possible. However, in order to realize high rigidity, the acrylic resin used for the base material of automobile interior parts is made of an acrylic resin having a molecular structure capable of crosslinking, and after the crosslinking reaction is completed, the above resin does not have fluidity The hot forming process has been applied. The acrylic resin used in the present invention is a type in which a molecule responsible for rigidity is bonded to a molecule responsible for rigidity and is polymerized in a co-polymer form, and is subjected to heat treatment after crosslinking reaction, . Also, the part where the stiffness decreased with the increase of the elongation was supplemented by adding crosslinkable monomer to improve the crosslink density. Therefore, it is possible to perform cold forming while maintaining rigidity similar to that of acrylic resin which can only be formed by conventional hot forming, so it is possible to inject ribs and brackets using thermoplastic resin during molding.

FIG. 2 is a sectional view of a board according to the present invention, which is a board 300 similar to a sandwich structure in which a polymer resin layer is formed on both sides of a nonwoven fabric. The center portion is composed of a low density natural fiber / polymer composite material layer 100 and both sides of the center layer are composed of a high density natural fiber / polymer composite material layer 200. The liquid polymer in the liquid state is impregnated to form a polymer resin layer on both sides of the nonwoven fabric. Due to the impregnation, the polymer in the liquid state penetrates into the nonwoven fabric, and the penetration of the polymer resin is relatively small , A low density natural fiber / polymer composite material layer (100), and an outer two-sided layer having a relatively high density of polymer resin is distinguished into a high density natural fiber / polymer composite material layer (200).

3 is a schematic view of a composite material for an automotive interior part according to the present invention. A rib 400 for reinforcing rigidity is attached to the rear of the board 300, and a bracket 500 for assembling a correlation part is attached separately have. In the case of a composite material for an existing automobile interior part, a separate injection step is required to attach the rib and the bracket. However, since the manufacturing method according to the present invention allows rear injection at the same time when the product is molded, It will be possible to save.

Manufacturing example

Manufacture of composite materials for automotive interior parts

I) A nonwoven fabric was produced through a mixing process, a carding process, and a web forming process of a natural fiber kenaf having an average thickness of 40 to 70 탆 and a length of 40 to 80 mm. Ii) The nonwoven fabric was impregnated with an acrylic resin through a compression roll process and then dried in an oven at 140 ° C for 20 minutes to prepare a board. Iii) The board was pressed in a hot press at 160 DEG C for 15 seconds to plasticize to enable molding.

Comparative Example 1

Except that a polypropylene resin was used in place of the acrylic resin.

Example 1

Evaluation of physical properties of composites for automotive interior parts

The physical properties of the natural fiber / acrylic resin composite material of the production example manufactured by the present invention and the natural fiber / polypropylene composite material of Comparative Example 1 were compared and evaluated.

The flexural strength and the flexural modulus were measured according to ASTM D790. The specimen size was 50 mm x 150 mm x thickness, the test speed was 5 mm / min, and the span width was 100 mm. And the test was conducted under the same conditions as above.

[Table 1]

Table 1 shows that the flexural strength and the flexural modulus of the conventional natural fiber / polypropylene composite material and the natural fiber / acrylic resin composite material of the embodiment are significantly increased compared to the conventional one. In addition, the flexural strength and flexural modulus were measured to be higher than in the prior art, despite the 20% reduction in weight of the examples. As a result, it can be seen that the composition according to the present invention can achieve weight reduction and high rigidity at the same time as the natural fiber / polypropylene composite material used for automobile built-in lathe.

Claims (11)

1) preparing a nonwoven fabric comprising kenaf, a natural fiber having a length of 40 to 80 mm;
2) impregnating the nonwoven fabric prepared in the step 1) with acrylic resin in liquid form dispersed in water or an organic solvent;
3) drying the nonwoven fabric impregnated with the acrylic resin of the step 2) by roll pressing to produce a board;
4) pressing and plasticizing the board of step 3); And
5) molding the plasticized board of step 4)
The product forming step in the step 5) comprises: 5-1) compression molding the plasticized board;
5-2) Rear-injection of the ribs and the bracket simultaneously with the compression molding in the step 5-1); And
5-3) < / RTI >
Wherein the acryl-based resin is capable of forming a co-polymer in the form of a co-polymer by bonding a molecule responsible for rigidity to a molecule responsible for rigidity, thereby forming a co-polymer.
delete delete The method according to claim 1,
Wherein the step 3) is a step of pressing and plasticizing by hot pressing. The method according to claim 1,
Wherein the step 5-1) is a compression molding in a cold die. The method according to claim 1,
Wherein the weight of the nonwoven fabric produced by the step 1) is 400 g / m ² to 1,200 g / m ² . The method according to claim 1,
Wherein the composite material for an automotive interior part comprises 80 to 20% by weight of a nonwoven fabric and 20 to 80% by weight of a polymer resin. The method according to claim 1,
Wherein the weight of the board manufactured in the step 3) is 600 to 1,800 g / m ² . The method according to claim 1,
The ribs and briquettes of the step 5-2) may be any one selected from the group consisting of a nylon composite resin, an acrylonitrile-butadiene-styrene composite resin (ABS), a polycarbonate (PC) By weight based on the total weight of the composite material.
delete A composite material for an automotive interior part manufactured by the manufacturing method according to any one of claims 1 to 9.

Images