KR101601857B1 - Ecofriendly thermoplastic felt laminate for car interior substrate - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to an environmentally friendly thermoplastic felt laminate for automotive interior materials, and more particularly, to an environmentally friendly thermoplastic felt laminate for automotive interior materials, which comprises a mixture of PLA (poly lactic acid) fibers, natural fibers and polypropylene fibers in a weight ratio of 1-3: 2-4: 4-6 Layer and a PLA resin or a PLA resin attached to one surface of the mixed felt layer and a matte 2 piece having a polypropylene foam are bonded to each other in such a manner that the surfaces having no foam are brought into contact with each other.
It is possible to obtain an environmentally friendly molded substrate composed of a material harmless to the human body in the process, which can contain biodegradable waste materials containing PLA fibers and is capable of high rigidity and light weight due to excellent compatibility of PLA fibers, The production cost can be reduced by shortening the cycle time, and the process itself can produce an environmentally friendly thermoplastic felt laminated composite for an automotive interior base material.

Description

TECHNICAL FIELD [0001] The present invention relates to an eco-friendly thermoplastic felt laminate for automobile interior trim,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a felt for an automotive interior base material, and more particularly to an environmentally friendly thermoplastic felt laminate for an automotive interior base material.

Due to the environmental pollution problem due to the rapid pace of industrial development in recent years, development of materials capable of reducing costs through process improvement while having environment-friendly characteristics, high rigidity and light weight is becoming an important issue.

An automobile interior material such as a head liner, a rear shelf, a package tray, a door trim, an instrument panel, and a pillar trim is used as a base material and a skin material (A switch, a speaker, a lamp, an air conditioning part, and a decoration) as a main panel to which a speaker is attached. In addition, the recent issue of indoor air regulation is indispensable, not a process to approach environmentally friendly materials.

Therefore, the base material of the automobile interior material should have enough rigidity to hold the interior material shape and fasten various parts, do not form sharp edges due to breakage in the event of a car accident, and have high impact resistance to absorb external energy. In addition, it is preferable that it is lightweight for improving fuel efficiency, eco-friendly for biodegradation, easy to recycle or dispose of, does not emit toxic substances during the production process, and has a feature of easy cost saving.

As an example of a conventional automobile substrate, there is a base material molded by heating and pressing Resin Felt and wood fiber materials with a hot press. This substrate is added with a curing agent called hexamine in order to promote the thermosetting property of the phenolic resin. This material has the disadvantage that it is a harmful material to the human body as a cause of odor, since by-products such as amines and ammonia are generated during the decomposition reaction.

Another example of a conventional technique is a felt structure in which a bubble paper is bonded to a mixed felt layer of natural fibers and polypropylene (KR 0361026B1). The felt structure described in this technology can be made environmentally friendly, lighter, and stiffer than ordinary plastics by including natural fibers, but it still takes a relatively long time to decompose, which is not suitable for reuse and disposal have. In addition, this technology has a problem that the composition of the mixed felt layer is poor in compatibility between the polypropylene fiber and the natural fiber (jute), the process time is prolonged, and the cost is not easily reduced.

Accordingly, an object of the present invention is to provide an eco-friendly thermoplastic felt laminate for an automobile interior base material that is biocompatible and is highly compatible with mixed fibers (polypropylene fiber, PLA fiber, natural fiber) will be. Another object of the present invention is to provide a thermoplastic felt for an automotive interior base material, which reduces the processing time of the interior material due to excellent moldability in the manufacturing process, thereby lowering the process cost.

The present invention provides, as means for solving the above-mentioned problems, a laminated sheet comprising a mixed felt layer in which natural fibers, PLA fibers and polypropylene fibers are mixed, and PLA resin or PLA resin and polypropylene adhered to one or both sides of the mixed felt layer The present invention provides an eco-friendly thermoplastic felt laminate for an automotive interior base material, which is made of a foamed paper.

The present invention relates to an environmentally friendly thermoplastic felt laminate for an automobile interior base material, wherein two matte pieces each having a base fabric composed of a PLA resin or a PLA resin and a polypropylene adhered to one side of the above mixed felt layer are bonded to each other with a base Offer more

The PLA fibers may have a thickness of 6 to 15 deniers and a length of 45 to 80 mm.

The content of the fibers may be 10 to 30 wt% of natural fibers, 20 to 40 wt% of PLA fibers, and 40 to 60 wt% of polypropylene fibers.

The polypropylene fiber may have a thickness of 6 to 15 deniers and a length of 45 to 80 mm.

The polypropylene resin may be selected from Homo, Block Co-Polymer and highly crystalline polypropylene.

The area weight of the foam paper may be 50 to 150 g / m 2.

Further, attachment of the foam paper or bonding of the mixed felt layer can be accomplished by needle punching.

The felt laminate according to the present invention can obtain an environmentally friendly molded base material composed of a material harmless to the normal human body through the biodegradation of the waste base material by containing the PLA fiber among the mixed fibers. The mixed fiber (polypropylene fiber, PLA fiber, Natural fibers) can be made highly rigid and lightweight, and the moldability is excellent, which can reduce the production cost by shortening the cycle time, and the process itself is environmentally friendly. The thermoplastic felt laminate Complexes.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing the structure of a pre-combination laminate as one embodiment of an environmentally-friendly thermoplastic felt laminate for a vehicle interior substrate according to the present invention.
Fig. 2 is a cross-sectional view showing the structure of the post-alignment laminate in the above embodiment.

Hereinafter, the present invention will be described more specifically with reference to the drawings.

The present invention provides, as means for solving the above-mentioned problems, a laminated sheet comprising a mixed felt layer in which natural fibers, PLA fibers and polypropylene fibers are mixed, and PLA resin or PLA resin and polypropylene adhered to one or both sides of the mixed felt layer The present invention provides an eco-friendly thermoplastic felt laminate for an automotive interior base material, which is made of a foamed paper.

At this time, as shown in Figs. 1 and 2, the present invention is characterized in that two sheets of matte having PLA resin or PLA resin attached to one side of the mixed felt layer and a base fabric composed of polypropylene, It can be combined.

The natural fibers are not particularly limited, and for example, jute fibers having excellent strength and durability and good productivity can be used. When natural fibers are used, it is preferable that the thickness is 40 to 120 mu m and the length is cut to 45 to 80 mm.

The polypropylene fiber preferably has a thickness of 6 to 15 deniers and a length of 45 to 80 mm. If fine fibers having a fiber diameter of 6 or less are used, the carding workability is not smooth. If fibers having 15 denier or more are used, mixing by uniform dispersion becomes difficult.

The PLA fiber preferably has a thickness of 6 to 15 deniers and a length of 45 to 80 mm. If fibers having a size of 6 deniers or less are used, the carding operation is not smooth as in the case of polypropylene fibers. If thick fibers of 15 denier or more are used, the weight deviation per unit area is significant, which may cause the defect rate to increase during processing. Finally, it is effective that the area weight of the PLA resin or the PLA resin and the polypropylene foam is 50 to 150 g / m 2.

The content of the fibers is preferably 10 to 30 wt% of the natural fibers, 20 to 40 wt% of the PLA fibers, and 40 to 60 wt% of the polypropylene fibers.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing a structure and a process of a pre-combination laminate of an environmentally-friendly thermoplastic felt for automotive interior decoration according to the present invention. Fig. As shown in the figure, the thermoplastic felt laminate according to the present invention is a mixed felt layer (hereinafter referred to as a " mixed felt layer ") comprising a natural fiber (jute fiber): PLA fiber: polypropylene fiber in a weight ratio of 1: 3: 2 to 4: 21 and 22 and a PLA resin or a PLA resin attached to one surface of the felt layers 21 and 22 and a mat having a polypropylene prepreg 1 are combined in the direction of the arrow to form the finished thermoplastic felt laminate of FIG. Is completed.

In the mixing ratio of the natural fibers, PLA fibers and polypropylene fibers of the mixed felt layer 2 of FIG. 2, the natural fibers are responsible for the strength, stiffness and impact resistance of the built-in substrate. PLA fibers are biodegradable at the time of filling, It is responsible for increasing the stiffness due to the strengthening of bonding with fibers, shortening the process time and creating clean working conditions. The polypropylene fiber melts like the PLA fiber when the base material is molded, thereby serving as a binder for enhancing the binding force of the natural fibers and for imparting moldability of the built-in base material. If the ratio of the three fibers is high, the stiffness becomes excessively high and the formability becomes poor. When the ratio of the PLA fibers is high, the heat resistance may be deteriorated. If the ratio of the polypropylene fibers is high, So that deformation and sagging of the molded product may occur.

The base paper 1 of Fig. 2 is composed of PLA resin or PLA resin and homopolymer polypropylene, and has an area weight of 50 to 150 g / m < 2 >. The base paper 1 is located on the surface of the mixed felt layer 2 and is absorbed by the surface of the felt layer when heated and pressed in the interior material molding process to form a dense base material surface. In addition, it is effective to prevent the twist deformation by the symmetry of the upper plate and the lower plate. Attachment of the bubble to the mixed felt layer can be accomplished by needle punching.

In the case of forming a laminate (Fig. 2) of the eco-friendly thermoplastic felt for automobile interior base material manufactured in this manner with an automobile built-in substrate, it is heated and pressurized, for example, by a hot press set at 180 to 230 占 폚. In this case, the time required for the temperature of the felt to reach 170 to 190 ° C is about 35 to 85 seconds, which is shortened by 5 seconds or more compared to 40 to 90 seconds which is a conventional heating and pressurizing condition, The cost reduction effect can be seen. The distance between the heated pressurized flat metal molds is set to about 1.2 to 1.8 times the thickness of the final substrate, and the pressing force is adjusted in the range of about 1 to 5 kgf / cm < 2 >.

The eco-friendly thermoplastic felt laminate for heating and pressurized automotive interior materials is transferred to a cooling molding die through which a molding press and cooling water are circulated to be formed into a desired type of built-in substrate. If desired, the skin material and the thermoplastic felt laminate heated and pressurized may be simultaneously injected during the cooling molding.

The following is an experimental example in which the embodiment according to the present invention is comparatively analyzed.

Jute fibers having an average thickness of 80 占 퐉 and a length of 60 mm were used as natural fibers. The PLA fiber and the polypropylene fiber were selected to have a fiber diameter of 6 denier and a length of 65 mm, and a homopolymer resin was used for the polypropylene fiber.

The mixing ratio of the jute fibers, the PLA fibers and the polypropylene fibers, and the mixing ratio of the polypropylene base paper are shown in Table 1. Polypropylene and PLA fibers having a fiber thickness of 6 to 15 deniers and a length of 45 to 80 mm were mixed in the mixing ratios shown in Table 1 and the jute fibers received in a bulk unit had a thickness of 40 ~ 120 탆 length, 45 ~ 80 mm in length, mixed again with polypropylene and PLA fibers, and subjected to a constant carding (tear-out) process. The carded mixed felt is subjected to a laminating process and a needle punching process, and finally, conforms to a prepreg made of PLA resin or PLA resin and polypropylene.

Configuration Weight (g) Remarks Prior art composition Conducting composition Jute fibers 560 396 PLA fibers 15 to 20 wt% PLA fiber - 224 Polypropylene fiber 560 610 Gifoji 280 280 Gross weight 1,400 1,500

The physical properties of the felt produced according to the composition of Table 1 are shown in Table 2.

Test Items unit Conventional technology Example Growth rate (%) Test Methods weight g 1,400 1,500 7 - Flexural strength Kgf / 5 cm 2.85 3.92 37 MS257-13 Flexural modulus GPa 2.1 2.7 28

※ MS (Material Specification): Hyundai Motor Test Specification

As shown in Table 2, it can be seen that the increase rate of the physical properties (flexural strength, flexural modulus) is 30% or more, compared with the weight increase ratio of 7% of the weight of the prior art. Therefore, it is possible to confirm the improvement of the physical properties according to the compatibility of the mixed felt layer, and it is also possible to reduce the weight at the same weight. The felt laminate of the present invention is of significance in that it has the advantages of the biodegradable characteristics of the PLA fibers, together with the physical properties mentioned above.

1: PLA resin or PLA resin and polypropylene prepreg
2: felt layer mixed with polypropylene fiber, PLA fiber and jute fibers
21: Felt layer with polypropylene fiber, PLA fiber and jute fibers mixed before the top plate
22: Felt layer bottom plate mixed with polypropylene fiber, PLA fiber and jute fibers before coalescence

Claims (9)

Characterized in that it comprises a mixed felt layer in which natural fibers, PLA fibers and polypropylene fibers are mixed and PLA resin or PLA resin attached to one or both sides of the mixed felt layer and a foamed paper composed of polypropylene In an environmentally friendly thermoplastic felt laminate,
The PLA fiber has a thickness of 6 to 15 deniers and a length of 45 to 80 mm.
Wherein the content of the fibers is 10 to 30 wt% of natural fibers, 20 to 40 wt% of PLA fibers, and 40 to 60 wt% of polypropylene fibers. The composite material according to claim 1, wherein PLA resin or PLA resin attached to one surface of the mixed felt layer and two matted pieces each having polypropylene foam are bonded to each other with no foam therebetween to form an environmentally friendly thermoplastic felt Laminate. delete delete The eco-friendly thermoplastic felt laminate according to claim 1 or 2, wherein the polypropylene fiber has a thickness of 6 to 15 deniers and a length of 45 to 80 mm. The eco-friendly thermoplastic felt laminate according to claim 1 or 2, wherein the polypropylene resin is selected from the group consisting of Homo, Block Co-Polymer and highly crystalline polypropylene. The eco-friendly thermoplastic felt laminate according to claim 1 or 2, wherein an area weight of the prepreg is 50 to 150 g / m 2. The eco-friendly thermoplastic felt laminate according to claim 1 or 2, wherein the adhesion of the foam paper or the bonding between the mixed felt layers is made by needle punching. Claims [1] An automobile built-in substrate produced by pressurizing and heating an environmentally-friendly thermoplastic felt laminate for an automobile interior base material according to claim 1 or 2 at 180 to 230 캜.

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