KR100275898B1 - Matrix using hybrid system of epoxy/vinyl ester resin - Google Patents

Abstract

The present invention provides a matrix comprising a composition obtained by hybridizing 80 to 90% by weight of an epoxy resin and 10 to 20% by weight of a vinyl ester resin, and a method of preparing the same. The matrix according to the present invention is excellent in thermal hardening and workability as well as thermal, mechanical and chemical resistance by hybridizing the existing thermosetting resin epoxy resin and vinyl ester resin in a specific mixing ratio.

Description

Matrix using a hybrid system of epoxy / vinyl ester resins

The present invention relates to a matrix using a hybrid system of epoxy / vinyl ester resins. More specifically, the present invention relates to a new matrix in which physical properties are improved by hybridizing epoxy and vinyl ester, which are existing thermosetting resins.

Epoxy resins are widely used in coating materials, electrical insulating materials, matrix of composite materials, civil engineering and building materials because of their excellent thermal, mechanical and chemical resistance properties.

In addition to the excellent thermal, mechanical and chemical properties of epoxy resins, vinyl ester resins have been used in various fields for a long time since they have fast curing properties and ease of operation of unsaturated polyesters. In particular, the resin is widely used as a matrix of fiber reinforced composite materials in fields requiring corrosion resistance and chemical resistance.

In recent years, new capabilities for matrices are required, and the development of matrices that meet these needs is urgently needed. New matrix development methods include the development of the matrix itself and the selection of existing matrices and hybridization of them to take advantage of the advantages of individual matrices and to compensate for the disadvantages to create matrices with improved physical properties. In the former case, a lot of research time and research costs are required, and the latter is attracting attention.

An object of the present invention is to hybridize an epoxy resin and a vinyl ester resin, which is a conventional thermosetting resin, in a specific mixing ratio, and to prepare a matrix for a composite material having excellent thermal, mechanical and chemical resistance properties as well as fast curing and workability.

1 is a view showing the flexural strength and flexural modulus according to the content of the vinyl ester in the hybrid system of epoxy / vinyl ester resin.

2 is a view showing the tensile strength according to the content of the vinyl ester in the hybrid system of epoxy / vinyl ester resin.

3 is a view showing the impact strength according to the content of the vinyl ester in the hybrid system of epoxy / vinyl ester resin.

Conventionally, fillers, additives, thermoplastic resins, and the like have been added to epoxy resins in order to improve the mechanical properties of the epoxy resins. However, in the conventional case, it is not easy to select a monomer for the epoxy resin and side reactions may occur due to additives, which may adversely affect workability.

The present inventors have conducted research to solve these shortcomings, and found that hybridization of epoxy vinyl esters at a specific ratio improves mechanical properties as well as fast curing and ease of use, which simplifies the work process and greatly shortens the working time. The present invention has been completed.

In addition, according to the present invention by adding a cheap vinyl ester to the epoxy there is an advantage that can significantly reduce the cost of the matrix.

Hybridization of vinyl esters to epoxy according to the present invention has the advantage that the matrix can be prepared by thermosetting or room temperature curing.

The present invention provides a matrix comprising a composition of 80 to 90% by weight epoxy resin and 10 to 20% by weight vinyl ester resin.

1, 2 and 3, when the content of the vinyl ester exceeds 20% by weight, the flexural strength, the flexural modulus, the tensile strength and the impact strength are sharply dropped, and when the content of the vinyl ester is less than 10% by weight, The physical properties drop slightly.

The present invention also provides a method for producing a composite material by applying a composition obtained by hybridizing 80 to 90% by weight of an epoxy resin and 10 to 20% by weight of a vinyl ester resin to a fiber reinforcement by a roller.

The composite material according to the present invention can be made by applying the composition according to the present invention to a fiber reinforcement in order to act as a binder. It is preferable to use glass fiber as a fiber reinforcing material.

The composite material according to the present invention is prepared by applying a composition obtained by hybridizing 80 to 90% by weight of an epoxy resin and 10 to 20% by weight of a vinyl ester resin to a fiber reinforcement by a roller. The matrix composition is post-cured at 100 ° C. to 150 ° C. for 1 to 2 hours to increase physical properties.

Post-cure system is one of the methods carried out to increase the properties of the cured cured product. The purpose is to increase the physical properties by removing the solvent or other impurities present in the cured product by artificially applying thermal energy and adding energy to the unreacted material that may be present in a small amount.

Hereinafter, although an Example demonstrates this invention in more detail, this Example does not limit the scope of the present invention.

Example 1

Low viscosity C ₁₂ -C ₁₄ -A-modified bisphenol type diglycidyl ether of (Diglycidyl Ether of Bisphenol-A, "DGEBA") based epoxy "YD-114" [Kukdo Chemical Co., Ltd. product; a trough having a The bisphenol-based vinyl ester "SR-825L" (manufactured by Sewon Chemical Co., Ltd.), which was prepared in a three-component form, was added at 0, 10, 20, 30, and 100% by weight to prepare a matrix composition.

The content of the amine epoxy curing agent triethylenetetramine (TETA), vinyl ester initiator methylethyl ketone peroxide (MEKP) and vinyl ester promoter cobalt-octoate (Co-Oct) used was 12 phr, 1 phr, 0.5 phr, respectively. Fixed. After fixing the cross-head speed of the matrix composition according to the produced vinyl ester content change at 2 mm / min, and fixing the ratio of the distance between the supports and the specimen thickness at 16: 1, the universal tester (Instron # 1125 ) Was used to measure flexural strength and flexural modulus. As a result, as shown in Figure 1, when the vinyl ester is added 10% by weight and 20% by weight, respectively, the flexural strength was increased by about 1% and 2% than the epoxy itself, the flexural modulus was almost the same level.

Example 2

The bisphenol-based vinyl ester "SR-825L" [Sewon Hwasung Co., Ltd.] produced in a three-pack type with low viscosity in DGEBA epoxy "YD-128" [product of Kukdo Chemical Co., Ltd.] having a medium viscosity is obtained in the above examples. Hybrid as in 1 to prepare a matrix composition. When the strain rate was fixed at 5 mm / min and the tensile strength was measured using a universal testing machine, when the vinyl ester was added 10 wt% and 20 wt%, respectively, as shown in FIG. % And 9% increase.

Example 3

Semi-solid type DGEBA epoxy "YD-134" [Kukdo Chemical Co., Ltd.] with high viscosity and low viscosity and three-component bisphenol vinyl ester "SR-825L" manufactured by Sewon Chemical Co., Ltd. Hybridization was carried out as in Example 1 to prepare a matrix composition. Impact strength was measured using a plastic impact tester. As a result, as shown in Figure 3 also when the vinyl ester is added 10% by weight and 20% by weight, respectively, the impact strength was increased by about 2% and 3% than the epoxy itself.

Example 4

Low viscosity of the C ₁₂ -C ₁₄ DGEBA-type epoxy-modified type "YD-114" [Kukdo Chemical Co., Ltd. product; having a low viscosity is a three-part bisphenol-based vinyl ester "SR-825L" [prepared by the three won Mars ( Note) product] was prepared by hybridization as in Example 1, and then coated on a three-dimensional glass fabric manufactured by Parabeam BV of the Netherlands used as a fiber reinforcement using a self-made aluminum roller to prepare a specimen. The deformation rate of the fiber-reinforced composite material according to the prepared matrix was fixed at 5 mm / min and the compressive strength was measured using a universal testing machine. As a result, resins containing 10% by weight and 20% by weight of unsaturated polyester were added to the matrix. When used, it showed about 1% and 2% increase compared to the compressive strength when epoxy itself was used as a matrix.

Example 5

The bisphenol-based vinyl ester "SR-825L" [Sewon Hwaseong Co., Ltd.] produced in a three-pack type with low viscosity in DGEBA epoxy "YD-114" [product of Kukdo Chemical Co., Ltd.] having a medium viscosity is obtained in the above examples. Hybrid as in 2 to prepare a specimen as in Example 4. The deformation rate of the fiber-reinforced composite material according to the prepared matrix was fixed at 5 mm / min and the compressive strength was measured using a universal testing machine. As a result, resins containing 10% by weight and 20% by weight of unsaturated polyester were added to the matrix, respectively. In the case of using, the epoxy resin showed an increase of about 2% and 3% compared to the compressive strength when the epoxy itself was used as the matrix.

Example 6

Semi-solid type DGEBA epoxy "YD-134" [Kukdo Chemical Co., Ltd.] with high viscosity and low viscosity and three-component bisphenol vinyl ester "SR-825L" manufactured by Sewon Chemical Co., Ltd. The specimen was prepared as in Example 4 by hybridization as in Example 3. The deformation rate of the fiber-reinforced composite material according to the prepared matrix was fixed at 5 mm / min and the compressive strength was measured using a universal testing machine. As a result, resins containing 10% by weight and 20% by weight of unsaturated polyester were added to the matrix, respectively. In the case of using, the increase in compressive strength when using the epoxy itself as a matrix was about 3% and 4%.

Example 7

Low viscosity of the C ₁₂ -C ₁₄ DGEBA-type epoxy-modified type "YD-114" [Kukdo Chemical Co., Ltd. product; having a low viscosity is a three-part bisphenol-based vinyl ester "SR-825L" [prepared by the three won Mars ( NOTE) Products were hybridized as in Example 1 to prepare a matrix composition, and then subjected to post-curing at 100 ° C. for 1 hour. In the present invention, the matrix after the post cure was measured in the same manner as in Example 1. As a result, as shown in FIG. 1, when the vinyl ester was added 10 wt% and 20 wt%, respectively, the flexural strength of the epoxy itself was increased by about 1% and 2%, and the flexural modulus was the value of the epoxy itself. Values similar to

Example 8

The bisphenol-based vinyl ester "SR-825L" [Sewon Hwasung Co., Ltd.] produced in a three-pack type with low viscosity in DGEBA epoxy "YD-128" [product of Kukdo Chemical Co., Ltd.] having a medium viscosity is obtained in the above examples After the hybridization as described in 1 to prepare a matrix composition was subjected to post-cure at 120 ℃ 1 hour 30 minutes. The matrix after postcure was measured in the same manner as in Example 2. As a result, as shown in FIG. 2, when 10% by weight and 20% by weight of vinyl ester were added, the tensile strength of the epoxy itself increased by about 3% and 4%.

Example 9

Semi-solid type DGEBA epoxy "YD-134" [Kukdo Chemical Co., Ltd.] with high viscosity and low viscosity and three-component bisphenol vinyl ester "SR-825L" manufactured by Sewon Chemical Co., Ltd. After the hybridization as in Example 1 to prepare a matrix composition was subjected to post-curing at 150 ℃ for 2 hours. The matrix after curing was measured in the same manner as in Example 3. As a result, as shown in Figure 3 also when the vinyl ester is added 10% by weight and 20% by weight, respectively, compared to the impact strength of the epoxy itself by about 1% and 2% increased.

The matrix according to the present invention is excellent in thermal hardening and workability as well as thermal, mechanical and chemical resistance by hybridizing the existing thermosetting resin epoxy resin and vinyl ester resin in a specific mixing ratio.

Claims (5)

(Correction) The matrix for composite materials containing the composition which hybridized 80 to 90 weight% of epoxy resins and 10 to 20 weight% of vinyl ester resins. (Correction) A composite material comprising a fiber reinforcing material in the hybridized matrix according to (1). (Correction) The composite material according to claim 2, wherein the fiber reinforcing material is glass fiber. (Correction) A method of manufacturing a composite material by applying a composition obtained by hybridizing 80 to 90% by weight of an epoxy resin and 10 to 20% by weight of a vinyl ester resin to a fiber reinforcement material using a roller. (Correction) The method according to claim 4, wherein the epoxy resin is subjected to post-curing at 100 to 150 ° C. for 1 to 2 hours and then vinyl ester is added.