KR20220042560A - Laminate improved durability using hot melt resin - Google Patents

Abstract

The present invention relates to a laminate with improved durability using hot melt resin in which a laminate with a high resin content is produced in a continuous belt-type heating and pressing step with respect to prepreg impregnated with hot melt resin in a fiber supply step of fiber or textile fabric, so as to have excellent impregnation, durability, mechanical properties, and a beautiful appearance. The laminate manufactured such that a primary prepreg is prepared by impregnating reinforcing fibers in the form of fibers or fabrics with a hot melt resin solution, in which the prepreg is guided to a continuous belt member and heated, immediately guided to a roller member and proceeds through a pressing step, and both ends of upper and lower films are thermally bonded while applying the upper and lower films to the upper and lower portions of the prepreg, respectively, which are guided to the continuous belt member, so that the prepreg is accommodated inside between the upper film and the lower film.

Description

Laminate improved durability using hot melt resin

The present invention relates to a laminate with enhanced durability using a hot melt resin, and more particularly, a prepreg that has been impregnated with a hot melt resin in the fiber supply step of fibers or textile fabrics, and the resin content ratio in the continuous belt-type heating and pressing step It relates to a laminate with enhanced durability using a hot melt resin having excellent impregnation, durability and mechanical properties by manufacturing this high laminate, and having a beautiful appearance.

Prepreg is an abbreviation of "Preimpregnated Material," and refers to a sheet-type product in which reinforcement fibers are pre-impregnated into a matrix, and is supplied wound on a paper roll to form a composite material. used as an intermediate material for The prepreg is classified into a thermosetting prepreg and a thermoplastic prepreg according to the type of resin applied to the matrix, or is aligned in one direction according to the type of reinforcing fiber to be input. In the form of unidirectional prepreg and fabric

It is also classified as a manufactured woven prepreg.

Therefore, the prepreg impregnated with hot melt resin in a sheet in which tows of reinforcing fibers such as carbon fiber, glass fiber, boron fiber, etc., which are reinforcing fibers of the existing technology, are arranged in one direction, are laminated through a heat and pressure treatment process to provide high specific strength. and various sports-leisure products requiring specific rigidity, industrial machine parts, and aircraft parts, etc. are widely used.

And, in the case of the heating and pressing process using a prepreg of a hot melt resin in the manufacture of a laminate by molding a prepreg, it has many advantages compared to other processes, but the melt viscosity of the hot melt resin is very high, so that the resin is uniformly applied to the reinforcing fiber. It is difficult to impregnate, and in order to produce a hot melt laminate having a high degree of impregnation, there is a problem in that the production temperature must be excessively increased or the production speed must be set low.

In addition, in order to lower the melt viscosity of the hot melt resin and improve the impregnation property, heating to a temperature much higher than the melting point of the resin film or increasing the high temperature residence time by slowing the production rate increases the physical properties of the prepreg due to thermal decomposition of the resin. There is a possibility that the durability of the laminate may be deteriorated in the pressurization process. Due to the difficulty in controlling the viscosity of the resin in the heating and pressing step, a low molecular weight resin film having a low melt viscosity is sometimes used despite the deterioration of physical properties. Although it is advantageous for production due to its low melt viscosity, there is a problem in that mechanical properties are significantly reduced.

1. Republic of Korea Patent Publication No. 10-2020-0106182 (published on September 11, 2020)

Therefore, it is an object of the present invention, in manufacturing a laminate through a heating and pressing step of a prepreg that has undergone an impregnation step using a hot melt resin of a fiber or fiber fabric, while the degree of impregnation of the hot melt resin is high and the hot melt resin is not lost in the heating and pressing step An object of the present invention is to provide a laminate having a high degree of impregnation and enhanced durability.

In an embodiment of the present invention for achieving the above object, a primary prepreg is prepared by impregnating a fiber or fabric-type reinforcing fiber in a hot melt resin solution, and then the prepreg is guided to a continuous belt member and subjected to a heating step. , in the laminate manufactured through the pressing step by immediately delivering it to the roller member,

The prepreg is accommodated inside between the upper film and the lower film by thermally bonding both ends of the upper film and the lower film while applying the upper and lower films to the upper and lower portions of the prepreg guided to the continuous belt member, respectively. To provide a laminate with enhanced durability using a hot melt resin.

On the other hand, there is provided a laminate with enhanced durability using a hot melt resin in which a resin of the same quality as the hot melt resin is coated on the adhesive surfaces of the upper and lower films corresponding to the upper and lower surfaces of the prepreg.

On the other hand, after impregnating the resin solution in which the first thermoplastic resin is dissolved in the solvent instead of the hot melt resin, and then removing the solvent, to prepare a first coating prepreg impregnated with the first thermoplastic resin, the first coating After the prepreg is impregnated with a resin solution in which the second thermoplastic resin is dissolved in a solvent, the solvent is removed, and a laminate with enhanced durability using a hot melt resin using the prepreg impregnated with the first and second thermoplastic resins is provided. do.

Meanwhile, between the heating step and the pressing step of the prepreg, the upper film and the lower film are respectively supplied to the upper and lower portions of the prepreg, and the corresponding both ends of the upper film and the lower film are adhered to each other, and the prepreg is accommodated therein, At this time, the rubber foam sheet is adhered to the adhesive surface of the upper film and the lower film that are interviewed on the upper and lower surfaces of the prepreg, and a non-foaming rubber layer is coated on the surface of the rubber foam sheet corresponding to the upper and lower surfaces of the prepreg. To provide a laminate with enhanced durability using a hot melt resin.

According to the present invention, the prepreg that has undergone the impregnation step using the hot melt resin of the fiber or fiber fabric, which is a reinforcing fiber, is subjected to the heat and press step to prepare a laminate with a high degree of impregnation of the hot melt resin before or during the heat and press step. While covering the upper and lower parts of the prepreg in the middle, the laminate manufactured by heating and pressing with both ends adhered has the advantage of having a high degree of impregnation without loss of hot melt resin and enhanced durability.

1 is a process diagram for manufacturing a laminate with enhanced durability using a hot melt resin according to the present invention.

In order to achieve the above object, the following embodiments will be described in detail with reference to the drawings.

As shown in FIG. 1, in one embodiment of the present invention, a primary prepreg is prepared by impregnating reinforcing fibers in the form of fibers or fabrics in a hot melt resin solution, and then the prepreg is guided to a continuous belt member and subjected to a heating step. Next, in the laminate manufactured through the pressing step by immediately delivering it to the roller member,

The prepreg is accommodated inside between the upper film and the lower film by thermally bonding both ends of the upper and lower films while applying the upper and lower films to the upper and lower portions of the prepreg guided to the continuous belt member, respectively. To provide a laminate with enhanced durability using a hot melt resin.

The laminate, which has undergone the impregnation step of the present invention, is subjected to heating and pressurization steps to minimize the loss of resin in the process of manufacturing the laminate, while the resin content rate is improved, and the laminate with enhanced durability is excellent in high resin content and impregnation degree, As having a beautiful surface, as reinforcing fibers in the form of unidirectional fiber yarns or woven fabric sheets are released from the roll, the hot melt resin is injected and passed into the heat-melted medium, and the reinforcing fibers passed through the squeezing roll while passing through , The surface of the reinforcing fibers impregnated with the hot melt resin solution is flattened, and the hot melt resin solution is uniformly dispersed between the reinforcing fibers.

Next, the reinforcing fibers impregnated with the hot melt resin solution passing through the squeezing roll are guided to a heating chamber in which a continuous belt member equipped with a heat source is installed, where the solvent having a low boiling point is removed, thereby reinforcing fibers in the form of a sheet Only the hot-melt resin remains, so that the prepreg impregnated with the hot-melt resin is manufactured.

And, since it is possible to secure the impregnation property during the laminate manufacturing process, which will be described later, the purpose of the prepreg manufacturing step is to minimize the impregnation distance by remaining a hot melt resin between the fiber and the fiber rather than securing the impregnation property. Conditions may be changed by appropriately using the environment of the applied equipment, and the storage and supply method of the fabricated prepreg may be changed as needed.

As the reinforcing fiber, conventional reinforcing fibers used in the manufacture of prepregs may be used without limitation, for example, carbon fiber, glass fiber, and aramid fiber having high strength and elasticity. fiber), string fibers, boron fibers, and mixtures thereof may be used.

In addition, as shown in the above-described manufacturing method, the reinforcing fiber may be a fiber arranged in one direction or a fiber in the form of a woven fabric, and the thickness thereof is not particularly limited as long as it can be used as the reinforcing fiber.

Meanwhile, the reinforcing fiber supply device for supplying the reinforcing fibers is a conventional supply device for supplying woven or unidirectional reinforcing fibers, and may vary depending on usage conditions and environments.

In addition, instead of preparing the prepreg using the hot melt resin, the first thermoplastic resin is impregnated with a resin solution dissolved in the solvent, and then the solvent is removed to prepare the first coating prepreg impregnated with the first thermoplastic resin. , After impregnating the first coating prepreg with a resin solution in which the second thermoplastic resin is dissolved in a solvent, removing the solvent, the first and second thermoplastic resins impregnated with the secondary coated prepreg can be prepared, , This is to lower the viscosity of the resin to more easily penetrate the first and second thermoplastic resins into the reinforcing fibers.

And, after the impregnation step of impregnating the reinforcing fibers into the prepreg or hot-melt resin that has passed through the heating chamber, heating and pressurization are possible simultaneously in the heating chamber delivered to the above-described continuous belt member. The pressing step provides a process of continuously manufacturing a laminate by being guided to a pressing roller member passing between two bellowing rollers, not by a conventional hydraulic (Hydraulic) driven hot press method.

At this time, after attaching the upper/lower film to the upper/lower surfaces of the single or stacked prepreg, respectively, the heating step and the pressing process may be performed simultaneously, or the pressing step may be performed after attaching the upper/lower film after the heating step. .

Here, for a more uniform pressure distribution, a heat-resistant elastic mat may be put into the outer periphery of the two pressure rollers, which are the pressure roller members.

For producing the laminate, set the molding pressure set according to the purpose of the product to be manufactured, and the highest molding temperature is preferably 20 to 30° C. or higher than the melting point of the applied hot melt resin, and to be maintained for 5 to 30 minutes. , it will be apparent that this may vary depending on the manufacturing environment or the purpose of the product.

After forming the laminate, the cooling process may vary depending on the facility environment, such as slow cooling or rapid cooling, but depending on the type of hot melt resin applied, thermal decomposition may occur due to heating time. In order to prevent this, the process of cooling to room temperature This is preferable.

And, as the upper film and the lower film are supplied, the prepreg is positioned and accommodated between the upper film and the lower film. As the upper and lower portions of the are sealed with the upper and lower films at corresponding positions, both ends are adhered to each other to seal the prepreg.

And, while continuously performing the impregnation step in which the reinforcing fibers are impregnated with the hot melt resin, the prepreg is continuously supplied to the heating and pressing step to manufacture a continuous laminate, and the upper/lower film is continuously supplied in the heating and pressing step It is supplied to the prepreg in a sealed form and provided in a heating step or a pressurization step.

In addition, a laminate with enhanced durability using a hot melt resin in which a resin of the same quality as a hot melt resin is coated on the adhesive surfaces of the upper and lower films corresponding to the upper and lower surfaces of the prepreg is provided. The upper/lower film is protected on the surface of the processed laminate, and the upper/lower film is removed when used. The adhesive surface of the upper/lower film is coated with a resin of the same quality as the hot melt resin on the adhesive surface of the upper/lower film to have a gloss or protective layer on the surface of the laminate while making it easy to separate the adhesive surface from the manufactured laminate. The resin coated on the adhesive surface of the upper/lower film is adhered to the upper and lower surfaces of the prepreg to achieve homogeneity.

In addition, as the upper and lower films are supplied to the upper and lower portions of the prepreg, respectively, between the heating step and the pressing step of the prepreg, the corresponding both ends of the upper film and the lower film are adhered to each other, and the prepreg is accommodated therein, At this time, the rubber foam sheet is adhered to the adhesive surface of the upper film and the lower film that are interviewed on the upper and lower surfaces of the prepreg, and a non-foaming rubber layer is coated on the surface of the rubber foam sheet corresponding to the upper and lower surfaces of the prepreg. To provide a laminate with enhanced durability using a hot melt resin.

As the rubber foam sheet is attached to the adhesive surface of the upper/lower film, the resin impregnated in the reinforcing fiber when it passes through the pressure roller member in the pressing step prevents loss or uniformity of distribution by the pressure roller member. The prepreg, which has undergone a heating process guided to the pressure roller member, induces a uniform distribution of the impregnated resin by buffering and pressing force of the rubber foam sheet.

And, since it is adhered to the surface of the high-volume foam sheet of the upper/lower film through the non-foaming rubber layer, it has elasticity and elastic recovery rate even in the pressing step by the elastic modulus of the rubber foam sheet, and the arc shape of the pressing roller member By bending while passing, the recovery rate to the plate shape of the prepreg is improved by this bent portion, and the pressing force is reduced.

In addition, the non-foaming rubber layer has a low hardness, less force applied to the prepreg, and absorbs most of the external force in the non-foaming rubber layer itself, so that it is possible to obtain the effect of improving the adhesive strength with the prepreg.

In addition, the prepreg is pressed while evenly maintaining the force applied by the non-foaming rubber layer to maintain a uniform distribution of the resin.

Accordingly, by manufacturing a laminate with an improved degree of impregnation of the resin through the above-described manufacturing process, it is possible to provide a product with improved durability by applying it to various sports-leisure products, industrial machine parts, and aircraft parts.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which this embodiment pertains may make various modifications and variations without departing from the essential characteristics of the present embodiment. Accordingly, the present embodiments are for explanation rather than limiting the technical spirit of the present embodiment, and the scope of the technical spirit of the present embodiment is not limited by these embodiments. The protection scope of this embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present embodiment.

Claims (4)

After manufacturing a primary prepreg by impregnating a fiber or fabric-type reinforcing fiber in a hot melt resin solution, the prepreg is guided to a continuous belt member and subjected to a heating step, and then directly delivered to a roller member and subjected to a pressing step. In the laminate,
The prepreg is accommodated inside between the upper film and the lower film by thermally bonding both ends of the upper film and the lower film while applying the upper and lower films to the upper and lower portions of the prepreg guided to the continuous belt member, respectively. A laminate with enhanced durability using a hot melt resin, characterized in that. The laminate of claim 1, wherein a resin of the same quality as the hot melt resin is coated on the adhesive surfaces of the upper and lower films corresponding to the upper and lower surfaces of the prepreg. The method of claim 1, wherein the first thermoplastic resin is impregnated with a resin solution dissolved in a solvent instead of the hot melt resin, and then the solvent is removed to prepare a first coating prepreg impregnated with the first thermoplastic resin, After impregnating the primary coating prepreg with a resin solution in which the second thermoplastic resin is dissolved in a solvent, the solvent is removed, and the prepreg impregnated with the first and second thermoplastic resins is used. Durable laminate used. The prepreg according to claim 1, wherein the upper film and the lower film are respectively supplied to the upper and lower portions of the prepreg between the heating step and the pressing step of the prepreg, and the corresponding both ends of the upper film and the lower film are adhered to the inside of the prepreg. is accepted,
At this time, the rubber foam sheet is adhered to the adhesive surface of the upper film and the lower film that are interviewed on the upper and lower surfaces of the prepreg, respectively,
Durable laminate using a hot melt resin, characterized in that the non-foaming rubber layer is coated on the surface of the rubber foam sheet corresponding to the upper and lower surfaces of the prepreg.

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