JPH0392338A - Skin material-integrated phenol resin foam and preparation thereof - Google Patents

Abstract

PURPOSE:To obtain a resin foam with a high strength by preparing an integrated foam molding consisting of a foamable phenol resin composite and a skin material. CONSTITUTION:A foamable phenol resin composite 1 prepd. by scattering a foamable phenol resin on one face of a mat-like fibrous material and heat-fusing them is used. A foamable phenol resin composite 1, a core material 2 and a skin material 3 are laminated. As the skin material 3, one of a vinyl chloride leather, a piled felt, a polyester non-woven fabric, etc., or a combination thereof is used. In addition, as the core material 2, one of a synthetic resin film, a synthetic resin net, a synthetic resin woven fabric, a natural fiber woven fabric, a natural fiber non-woven fabric, a craft paper, a phenol resin prepreg, a metal sheet, a laminate, a wooden sheet, etc., or a combination thereof is used.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Field of Application) The present invention relates to a phenolic resin foam integrated with a skin material used for interior materials, etc., and a method for producing the same. (Prior art) Conventionally, hard materials such as felt board and fiberboard have been used for automobile interior materials and architectural interior materials. i board is used. Generally, the manufacturing process for the above-mentioned interior materials consists of two steps: a step of forming a plate by heat pressing, and a step of attaching a skin material after the forming. A temperature of around 200°C is required to shape the fiberboard, and if the fiberboard is molded at the same time as the skin material, the skin material will change in quality due to heat, making it difficult to form the skin material and fiberboard as one body. Met. Phenol resin foam can be used in addition to mm plates, but phenol resin foam alone has low strength.
In order to increase its strength, there is a method of adhering a skin material to the phenolic resin foam. However, this method has the drawback of increasing the number of steps and requiring a place to store the phenolic resin foam when performing the step of adhering the skin material, leading to an overall increase in manufacturing costs. (
Problems to be Solved by the Invention) The present invention has been made to solve the above-mentioned problems, and its purpose is to provide a phenolic resin foam with a high strength skin material, and to reduce the number of manufacturing steps. The purpose of this invention is to provide a method for manufacturing a phenolic resin foam with an integrated skin material, which can reduce the amount of time required to produce a product and reduce manufacturing time, thereby contributing to a reduction in product manufacturing costs. [Structure of the Invention] (Means for Solving the Problems) The skin material-integrated phenolic resin foam according to the present invention comprises an integrally foamed body of a foamable phenolic resin composite and a skin material;
Alternatively, it is composed of an integrally foamed molded product of a foamable phenolic resin composite, a rigid core material, and a skin material. Further, the method for manufacturing a phenolic resin foam with a skin material according to the present invention includes integral foam molding of a foamable phenolic resin composite and a skin material, or
A rigid core material and a skin material are integrally foam-molded. As a result of intensive studies to achieve the above object, the present inventors have found that a phenolic resin composite in which foamable phenolic resin is sprayed on at least one side of a mer-shaped fiber material and a skin material are integrally foamed. The present invention has been completed by discovering that a lightweight and strong phenolic resin foam can be obtained by molding.The present invention will be further explained below. When integrally molding the skin material and fiberboard, if a normal fiberboard is used and the molding temperature is lowered to prevent deterioration of the skin material, the molding time will be significantly longer and the manufacturing cost will increase. Therefore, in the present invention, a foamable phenolic resin composite was used in which foamable phenolic resin was sprayed on at least one side of the mat-like mIa material and then heat-fused. That is, since the foamable phenolic resin composite foams and hardens at 150 to 170°C, it is possible to lower a certain forming temperature on the skin material side. The above foamable phenolic resin composite, core material, and skin material are laminated, and the mold temperature on the foamable phenolic resin composite side is 150~150.
Using a hot press with the mold temperature on the skin material side kept at 170°C and 120°C, a molded product with a plate thickness of 3 to 5 liters is formed for 60 seconds. In this case, the temperature on the skin material side is low, so no deterioration of the skin material due to heat occurs. In addition, since the resin foams and fills every corner of the mold, it follows the shape of the mold well, making it possible to produce molded products with relatively deep curves. Furthermore, since the skin material such as vinyl chloride leather or polyester nonwoven fabric is integrated with the core material and the foamable phenolic resin composite, the strength is significantly increased. As the skin material, any one of vinyl chloride leather, raised felt, polyester nonwoven fabric, etc. or a combination thereof is used. In addition, the core materials include synthetic resin films, synthetic resin nets, synthetic resin woven fabrics, synthetic resin non-woven fabrics, natural delicate woven fabrics, natural fiber non-woven fabrics, kraft paper, phenol resin blip-pregs, metal plates, and laminated sheets. Use one or a combination of boards, wood boards, etc. Note that each of the materials listed as the core material can also be used as the skin material. (Function) It is also possible to obtain a highly strong skin-integrated phenolic resin foam by integrally foaming a foamable phenolic resin composite and a skin material. However, the foamable phenolic resin foams and hardens at 150-170°C, and the foamed resin penetrates into the interior of the mat-like material and oozes out onto the surface of the skin material. Therefore, in order to prevent the foamed resin from seeping onto the surface of the skin material, a rigid core material is laminated between the skin material and the foamable phenolic resin composite. In this method, the foamable phenolic resin is compressed on the core surface, so the phenolic resin foam with integrated skin material produced using this method has no unevenness on the foamed surface and has a smooth surface. Furthermore, by using the core material, the temperature on the foamable phenolic resin side is difficult to transfer to the skin material side, and there is no rise in the temperature on the skin material side, so the skin material does not change in quality due to heat. Because the foam and skin material are integrated, the strength is improved compared to when the foam is used alone. (Example) Examples of the present invention will be explained in detail below. Example 1 Glass wool was used as the mat-like fiber, and 400 g/milli of foamable phenol resin was applied to one side of the glass wool (basis weight: 300 g/yi), and the foamable phenol resin composite was heated and fused. 1, and make sure that the foamable phenol resin fusion surface is in contact with the core material 2, and
A polypropylene film is used as the material, and a polyester nonwoven fabric is used as the skin material 3, which are laminated and arranged as shown in FIG. The molding conditions were such that the temperature on the expandable phenolic resin composite 1 side was 170°C, the temperature on the skin material 3 side was 120°C, and the hot pressing time was 60 seconds to obtain a molded product with a thickness of 3 cm. Example 2 In the same manner as in Example 1, kraft paper was used as the core material 2A, and the core material 2A was laminated as shown in FIG. Ta. Example 3 In the same manner as in Example 1, aluminum foil was used as the core material 2B, and polyethylene films 4A and 4A were coated on both sides. 4B was used as an adhesion auxiliary material and laminated as shown in FIG. 3 to obtain a molded product with a thickness of 3 yen under the same conditions as in Example 1. Example 4 In the same manner as in Example 1, the core material 2C was made of phenolic resin prepreg, and the core material 2C was laminated as shown in FIG. Obtained. Comparative Example> Expandable phenolic resin composite 1 prepared under the same conditions as in Example 1 was shaped at a shaping temperature of 170°C and a heat-pressing time of 60 seconds to obtain a molded product with a thickness of 3 squares. Table 1 shows the strength of the precepts obtained in Examples 1 to 4 and Comparative Example. Table 1 As shown in Table 1, it was found that the bending strength of the shapely products according to Examples 1 to 4 was significantly improved compared to the case of the foamable phenolic resin composite alone. The present invention is not limited to the embodiments described above, and various modifications can be made within the scope of the invention. For example, in Examples 1 to 4 described above, cases were explained in which a single material was used as the core material. The core material can be a combination of two or more of rope cloth, natural fiber non-woven fabric, synthetic resin net, kraft paper, phenolic resin prepreg, metal plate, laminate plate, wood board, etc. In addition to the above-mentioned polyester nonwoven fabric, vinyl chloride leather, brushed felt, etc. can also be used as the skin material. As mentioned above, each of the materials mentioned above as the core material can also be used as the skin material. [Effects of the Invention] According to the present invention detailed above, the skin material is integrally foamed with the phenolic resin by the integrally foamed molded product of the foamable phenolic resin and the skin material, or the integrally foamed molded product of the foamable phenolic resin, the core material, and the skin material. By constructing the foam body, it is possible to obtain a phenolic resin foam with higher strength than conventional foamable phenolic resin composites alone. In addition, according to the method of the present invention, since each material as a component is laminated and foamed integrally, the number of manufacturing steps and manufacturing time can be reduced, and the overall product manufacturing time can be reduced. It is possible to provide a method for manufacturing a phenolic resin foam with an integrated skin material that can contribute to lower costs.

[Brief explanation of drawings]

Figure 1 is an explanatory diagram showing the manufacturing process of Example 1 of the present invention, Figure 2 is an explanatory diagram showing the manufacturing process of Example 2 of the invention, and Figure 3 is an explanatory diagram showing the manufacturing process of Example 2 of the present invention.
The figures are an explanatory diagram showing the manufacturing process of Example 3 of the present invention;
The figure is an explanatory diagram showing the manufacturing process of Example 4 of the present invention. l●●●Expansible phenolic resin composite 2, 2A. 2 B, 2 C ● ●Core material 3 ●Skin material 4A. 4 B ● ●Polyethylene film.

Claims (7)

[Claims] (1) A skin material-integrated phenolic resin foam characterized by being composed of an integrally foamed molded product of an expandable phenolic resin composite and a skin material. (2) A skin material-integrated phenolic resin foam comprising an integral foam molded product of a foamable phenolic resin composite, a rigid core material, and a skin material. (3) A method for producing a phenolic resin foam integral with a skin material, which comprises integrally foam-molding a foamable phenolic resin composite and a skin material. (4) A method for producing a phenolic resin foam with an integrated skin material, which comprises integrally foam-molding a foamable phenolic resin composite, a core material having rigidity, and a skin material. (5) The production of a phenolic resin foam integrated with a skin material according to claim 3 or 4, wherein the foamable phenolic resin composite is obtained by spraying foamable phenolic resin on at least one side of a mat-like fiber and fusing it with heat. Method. (6) The skin material may include vinyl chloride leather, brushed felt, polyester nonwoven fabrics, synthetic resin films, synthetic resin nets, synthetic resin woven fabrics, natural fiber woven fabrics, natural fiber nonwoven fabrics, and kraft paper. 5. The method for producing a phenolic resin foam integrated with a skin material according to claim 3 or 4, wherein the foam is selected from phenolic resin prepreg metal plates, laminates, wooden boards, etc. (7) The core material is a synthetic resin film, a synthetic resin net, a synthetic resin woven fabric, a synthetic resin nonwoven fabric, a natural fiber woven fabric, a natural fiber nonwoven fabric, a kraft paper, a phenolic resin prepreg, a metal plate, a laminate, a wood board, etc. Claim 4 which is selected from
The method for producing the described phenolic resin foam integrated with a skin material.