WO2022196624A1 - 樹脂組成物、プリプレグおよび繊維強化プラスチック - Google Patents
樹脂組成物、プリプレグおよび繊維強化プラスチック Download PDFInfo
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- WO2022196624A1 WO2022196624A1 PCT/JP2022/011278 JP2022011278W WO2022196624A1 WO 2022196624 A1 WO2022196624 A1 WO 2022196624A1 JP 2022011278 W JP2022011278 W JP 2022011278W WO 2022196624 A1 WO2022196624 A1 WO 2022196624A1
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- OGIDPMRJRNCKJF-UHFFFAOYSA-N titanium oxide Inorganic materials [Ti]=O OGIDPMRJRNCKJF-UHFFFAOYSA-N 0.000 description 1
- DVKJHBMWWAPEIU-UHFFFAOYSA-N toluene 2,4-diisocyanate Chemical compound CC1=CC=C(N=C=O)C=C1N=C=O DVKJHBMWWAPEIU-UHFFFAOYSA-N 0.000 description 1
- ZIBGPFATKBEMQZ-UHFFFAOYSA-N triethylene glycol Chemical compound OCCOCCOCCO ZIBGPFATKBEMQZ-UHFFFAOYSA-N 0.000 description 1
- JLGLQAWTXXGVEM-UHFFFAOYSA-N triethylene glycol monomethyl ether Chemical compound COCCOCCOCCO JLGLQAWTXXGVEM-UHFFFAOYSA-N 0.000 description 1
- 150000004072 triols Chemical class 0.000 description 1
- BIKXLKXABVUSMH-UHFFFAOYSA-N trizinc;diborate Chemical compound [Zn+2].[Zn+2].[Zn+2].[O-]B([O-])[O-].[O-]B([O-])[O-] BIKXLKXABVUSMH-UHFFFAOYSA-N 0.000 description 1
- 125000002948 undecyl group Chemical group [H]C([*])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])[H] 0.000 description 1
- 229920001567 vinyl ester resin Polymers 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
- 238000009736 wetting Methods 0.000 description 1
- 239000000080 wetting agent Substances 0.000 description 1
- 239000010457 zeolite Substances 0.000 description 1
- 229910052984 zinc sulfide Inorganic materials 0.000 description 1
- BNEMLSQAJOPTGK-UHFFFAOYSA-N zinc;dioxido(oxo)tin Chemical compound [Zn+2].[O-][Sn]([O-])=O BNEMLSQAJOPTGK-UHFFFAOYSA-N 0.000 description 1
- DRDVZXDWVBGGMH-UHFFFAOYSA-N zinc;sulfide Chemical compound [S-2].[Zn+2] DRDVZXDWVBGGMH-UHFFFAOYSA-N 0.000 description 1
Images
Classifications
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08J—WORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
- C08J5/00—Manufacture of articles or shaped materials containing macromolecular substances
- C08J5/24—Impregnating materials with prepolymers which can be polymerised in situ, e.g. manufacture of prepregs
- C08J5/241—Impregnating materials with prepolymers which can be polymerised in situ, e.g. manufacture of prepregs using inorganic fibres
- C08J5/243—Impregnating materials with prepolymers which can be polymerised in situ, e.g. manufacture of prepregs using inorganic fibres using carbon fibres
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F222/00—Copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by a carboxyl radical and containing at least one other carboxyl radical in the molecule; Salts, anhydrides, esters, amides, imides, or nitriles thereof
- C08F222/10—Esters
- C08F222/1006—Esters of polyhydric alcohols or polyhydric phenols
- C08F222/103—Esters of polyhydric alcohols or polyhydric phenols of trialcohols, e.g. trimethylolpropane tri(meth)acrylate
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08G—MACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
- C08G59/00—Polycondensates containing more than one epoxy group per molecule; Macromolecules obtained by polymerising compounds containing more than one epoxy group per molecule using curing agents or catalysts which react with the epoxy groups
- C08G59/18—Macromolecules obtained by polymerising compounds containing more than one epoxy group per molecule using curing agents or catalysts which react with the epoxy groups ; e.g. general methods of curing
- C08G59/40—Macromolecules obtained by polymerising compounds containing more than one epoxy group per molecule using curing agents or catalysts which react with the epoxy groups ; e.g. general methods of curing characterised by the curing agents used
- C08G59/4007—Curing agents not provided for by the groups C08G59/42 - C08G59/66
- C08G59/4014—Nitrogen containing compounds
- C08G59/4021—Ureas; Thioureas; Guanidines; Dicyandiamides
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08J—WORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
- C08J5/00—Manufacture of articles or shaped materials containing macromolecular substances
- C08J5/04—Reinforcing macromolecular compounds with loose or coherent fibrous material
- C08J5/0405—Reinforcing macromolecular compounds with loose or coherent fibrous material with inorganic fibres
- C08J5/042—Reinforcing macromolecular compounds with loose or coherent fibrous material with inorganic fibres with carbon fibres
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08J—WORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
- C08J5/00—Manufacture of articles or shaped materials containing macromolecular substances
- C08J5/24—Impregnating materials with prepolymers which can be polymerised in situ, e.g. manufacture of prepregs
- C08J5/249—Impregnating materials with prepolymers which can be polymerised in situ, e.g. manufacture of prepregs characterised by the additives used in the prepolymer mixture
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L63/00—Compositions of epoxy resins; Compositions of derivatives of epoxy resins
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08J—WORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
- C08J2363/00—Characterised by the use of epoxy resins; Derivatives of epoxy resins
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08J—WORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
- C08J2435/00—Characterised by the use of homopolymers or copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by a carboxyl radical, and containing at least one other carboxyl radical in the molecule, or of salts, anhydrides, esters, amides, imides or nitriles thereof; Derivatives of such polymers
- C08J2435/02—Characterised by the use of homopolymers or copolymers of esters
Definitions
- the present invention relates to a curable resin composition, and films, molded articles, prepregs, and fiber-reinforced plastics using the same, which are suitably used for sports and leisure applications, general industrial applications, aircraft material applications, and the like. It is.
- This application claims priority based on Japanese Patent Application No. 2021-041609 filed in Japan on March 15, 2021, the content of which is incorporated herein.
- Fiber-reinforced plastic which is one of the fiber-reinforced composite materials, is lightweight, high-strength, and high-rigidity, so it is widely used in sports and leisure applications, as well as industrial applications such as automobiles and aircraft.
- a method of producing fiber-reinforced plastics there is a method of using an intermediate material, that is, a prepreg, in which a reinforcing material made of long fibers (continuous fibers) such as reinforcing fibers is impregnated with a matrix resin.
- This method has the advantage that it is easy to manage the content of the reinforcing fibers in the fiber-reinforced plastic, and it is possible to design the content to be high. , moldings can be obtained.
- epoxy resins with excellent adhesion to carbon fibers are often used as matrix resins.
- epoxy resins generally tend to give brittle cured products and low toughness. Therefore, in order to improve the fracture toughness and rigidity of fiber-reinforced plastics, it has been a technical issue to improve the toughness of epoxy resins.
- Epoxy resins have conventionally been made tougher by modification techniques using engineering plastics such as polyethersulfone. Further, in recent years, studies have been made to improve the toughness by adding a modifier such as a block copolymer and using a phase separation structure that occurs during the curing process of the resin.
- Tg glass transition temperature
- elastic modulus of the cured product tend to decrease, and a significant increase in viscosity due to the addition of the polymer cannot be avoided.
- Non-Patent Document 1 a vinyl polymer generated by radical polymerization is used as a modifier, and in the field of fiber-reinforced plastics, technological development is progressing to produce intermediate materials using both epoxy resins and radically polymerizable monomers.
- the present invention has the following modes [1] to [52].
- [1] A prepreg containing carbon fibers and a matrix resin, wherein the matrix resin comprises an epoxy resin, a curing agent, a monofunctional (meth)acrylate monomer having a molecular weight of 200 or more, and a polyfunctional (meth)acrylate monomer.
- Prepreg containing [2] The prepreg according to [1], wherein the curing agent comprises at least one component (b1) selected from dicyandiamide, ureas, imidazoles, and aromatic amines.
- the curing agent contains dicyandiamide.
- the component (b2) is at least one peroxide-based compound selected from the group consisting of diacyl peroxides, alkylperoxyesters, peroxydicarbonates, peroxyketals, dialkyl peroxides, and hydroperoxides.
- the monofunctional (meth)acrylate monomer having a molecular weight of 200 or more is isobornyl (meth)acrylate, tetrahydrofurfuryl (meth)acrylate, phenoxyethyl (meth)acrylate, dicyclopentenyl (meth)acrylate, and dicyclopentenyl (meth)acrylate.
- X is each independently ethylene oxide or propylene oxide
- n, m, and l are each independently an integer of 0 to 10
- Y is an acryloyl group or a hydrogen atom.
- prepreg. curing conditions A matrix resin is injected between two glass plates to form a plate with a thickness of 2 mm, heated to an oven ambient temperature of 130° C. at a rate of 2° C./min, and held at 130° C.
- TEM transmission electron microscope
- the obtained TEM image is subjected to smoothing and background subtraction using image analysis software, and then the boundary of the binarized image is detected.
- the size R is the median value of the maximum Feret diameter of the domain X.
- the distance L between domains X is the median value of the distances from the center of gravity of a domain X to the center of gravity of another domain X which is the nearest neighbor.
- Component (B): Curing agent [14] The prepreg according to [13], wherein the component (A) contains a monofunctional (meth)acrylate monomer. [15] The prepreg according to [13] or [14], wherein the component (A) contains a polyfunctional (meth)acrylate monomer. [16] The prepreg according to any one of [10] to [15], wherein the domain X contains a polymer of (meth)acrylate monomers. [17] The prepreg according to any one of [10] to [16], wherein the domain Y contains a cured epoxy resin.
- the component (b2) is at least one peroxide compound selected from the group consisting of diacyl peroxides, alkylperoxyesters, peroxydicarbonates, peroxyketals, dialkyl peroxides, and hydroperoxides.
- the prepreg according to any one of [20] to [22], including [24] The prepreg according to any one of [10] to [23], containing 5 to 45 parts by mass of component (A) with respect to 100 parts by mass of the total epoxy resin.
- a fiber-reinforced plastic obtained by curing the prepreg according to any one of [10] to [25].
- a fiber-reinforced plastic comprising reinforcing fibers and a matrix resin, wherein the matrix resin has a sea-island phase separation structure comprising domains X and domains Y, and domains X have a size R measured by the following measurement method.
- a fiber-reinforced plastic comprising island portions of 400 nm or less and having a ratio L/R of the distance L between domains X to the size R of 1.1 or more.
- a cross section of the fiber-reinforced plastic is mechanically polished to obtain a mirror surface. Electron staining is performed by exposing the obtained smooth section to RuO4 vapor or OsO4 vapor. After the conductive treatment, a backscattered electron image of the electron-stained cross-section is obtained using a scanning electron microscope (SEM) with an acceleration voltage of 5 kV to observe the phase separation structure. The obtained backscattered electron image is subjected to smoothing and background subtraction using image analysis software, and then the boundary of the binarized image is detected.
- the size R is the median value of the maximum Feret diameter of the domain X.
- the distance L between domains X is the median value of the distances from the center of gravity of a domain X to the center of gravity of another domain X which is the nearest neighbor.
- a cured product obtained by curing the matrix resin under the following curing conditions has a sea-island phase separation structure consisting of domains X and domains Y, and the domains X have a size R of 400 nm or less as measured by the following measurement method.
- the ratio L/R of the distance L between the domains X to the size R, which constitutes the island portion is preferably 1.1 or more and 100 or less, more preferably 1.1 or more and 50 or less, and further preferably 1.25 or more and 10 or less.
- the matrix resin contains an epoxy resin and a (meth)acrylate monomer, and the content of the (meth)acrylate monomer is 5 parts by mass or more and 45 parts by mass with respect to 100 parts by mass of the total epoxy resin in the prepreg.
- the matrix resin contains an epoxy resin and a component (b1) that cures the epoxy resin.
- the matrix resin contains an epoxy resin and dicyandiamide, and the content of dicyandiamide is preferably 1 to 15 parts by mass, more preferably 2 to 10 parts by mass, with respect to 100 parts by mass of the total epoxy resin contained in the matrix resin.
- the matrix resin contains a (meth)acrylate monomer and a component (b2) that cures the (meth)acrylate monomer, and the content of the component (b2) is The prepreg according to any one of [1] to [25] and [34] to [37], which preferably contains 0.1 parts by mass or more, and more preferably contains 0.2 parts by mass or more. .
- the matrix resin contains a liquid epoxy resin, and the epoxy resin liquid epoxy resin preferably has a viscosity of 0.1 Pa ⁇ s or more and 500 Pa ⁇ s or less at 25°C.
- the prepreg according to any one of [1] to [25] and [34] to [38], which is more preferably 300 Pa ⁇ s or less.
- the matrix resin contains an epoxy resin, and the content of the epoxy resin is preferably 70 parts by mass or more and less than 100 parts by mass with respect to 100 parts by mass of the matrix resin, and is preferably 80 parts by mass or more and 95 parts by mass or less.
- the prepreg according to any one of [1] to [25] and [34] to [39], which is more preferable.
- the matrix resin contains a liquid epoxy resin, and the content of the liquid epoxy resin is 20 parts by mass or more and 80 parts by mass or less with respect to 100 parts by mass of the total epoxy resin contained in the epoxy resin composition.
- the matrix resin contains a solid epoxy resin, and the content of the solid epoxy resin is 10 parts by mass or more and 80 parts by mass or less with respect to 100 parts by mass of the total epoxy resin contained in the epoxy resin composition. is preferably 13 parts by mass or more and 70 parts by mass or less, more preferably 15 parts by mass or more and 60 parts by mass or less, [1] to [25], and [34] to [ 42], the prepreg according to any one of items.
- the matrix resin contains an epoxy resin and a thermoplastic resin, and the content of the thermoplastic resin is 1 part by mass or more and 30 parts by mass or less with respect to 100 parts by mass of the total epoxy resin contained in the matrix resin. It preferably contains 2 parts by mass or more and 10 parts by mass or less, more preferably 3 parts by mass or more and 6 parts by mass or less, [1] to [25] and [34] to [43] The prepreg according to any one of items 1 and 2. [45] The matrix resin contains a liquid epoxy resin and a solid epoxy resin, and the mass ratio represented by [content of liquid epoxy resin]/[content of solid epoxy resin] is 10.
- the matrix resin contains an epoxy resin and a (meth)acrylate monomer, and the mass ratio represented by [epoxy resin content]/[(meth)acrylate monomer content] is 100/75. Any one of [1] to [25] and [34] to [45], preferably from 100/5, more preferably from 100/50 to 100/10, even more preferably from 100/30 to 100/20 The prepreg described in .
- the bending strength of the resin plate is preferably 170 MPa or more and 200 MPa or less, more preferably 175 MPa or more and 190 MPa or less, [1] to [25], and the prepreg according to any one of [34] to [46].
- the bending elastic modulus of the resin plate is preferably 3.60 GPa or more and 10.0 GPa or less, more preferably 3.65 GPa or more and 5.0 GPa or less. , [1] to [25], and [34] to [47].
- the maximum stress strain of the resin plate is preferably more than 0% and 7.0% or less, more preferably more than 0% and 6.5% or less. , [1] to [25], and [34] to [48].
- the breaking strain of the resin plate is preferably 8.0% or more and 20.0% or less, and more preferably 8.5% or more and 15% or less. The prepreg according to any one of [1] to [25] and [34] to [49], which is preferable.
- the matrix resin preferably contains a (meth)acrylate monomer, and the (meth)acrylate monomer is a trifunctional (meth)acrylate monomer; tris(2-hydroxyethyl)isocyanurate and (meth) ) is more preferably a trifunctional (meth)acrylate monomer obtained by esterification by reacting with acrylic acid; more preferably a trifunctional (meth)acrylate monomer represented by the following formula (2), The prepreg according to any one of [1] to [25] and [34] to [50].
- the present invention also has the following modes [1a] to [22a].
- [1a] A resin composition containing an epoxy resin, a curing agent, a monofunctional (meth)acrylate monomer having a molecular weight of 200 or more, and a polyfunctional (meth)acrylate monomer.
- the curing agent comprises at least one component (b1) selected from dicyandiamide, ureas, imidazoles, and aromatic amines.
- the curing agent contains dicyandiamide.
- the monofunctional (meth)acrylate monomer having a molecular weight of 200 or more is isobornyl (meth)acrylate, tetrahydrofurfuryl (meth)acrylate, phenoxyethyl (meth)acrylate, dicyclopentenyl (meth)acrylate, and dicyclopentenyl (meth)acrylate.
- X is each independently ethylene oxide or propylene oxide
- n, m, and l are each independently an integer of 0 to 10
- Y is an acryloyl group or a hydrogen atom.
- a cured product obtained by curing the resin composition under the following curing conditions has a sea-island phase separation structure consisting of domains X and domains Y, and the domains X have a size R of 400 nm or less as measured by the following measurement method. and the ratio L/R of the distance L between the domains X to the size R is 1.1 or more.
- curing conditions A matrix resin is injected between two glass plates to form a plate with a thickness of 2 mm, heated to an oven ambient temperature of 130° C. at a rate of 2° C./min, and held at 130° C. for 90 minutes.
- a 60-90 nm thick section is cut from the cross section of the cured product using an ultramicrotome, and the obtained section is subjected to electron staining by exposing it to RuO 4 vapor for 7 minutes.
- a section of 60 to 90 nm thick is cut using an ultramicrotome from the cross section of the cured product that has been exposed to OsO 4 vapor for 16 hours.
- a transmission electron microscope (TEM) is used to observe the phase-separated structure of the section electron-stained by the pretreatment under the condition that the acceleration voltage is set to 80 kV to obtain a TEM image.
- the obtained TEM image is subjected to smoothing and background subtraction using image analysis software, and then the boundary of the binarized image is detected.
- the size R is the median value of the maximum Feret diameter of the domain X.
- the distance L between domains X is the median value of the distances from the center of gravity of a domain X to the center of gravity of another domain X which is the nearest neighbor.
- [11a] The resin composition according to [10a], wherein the ratio L/R is 100 or less.
- [13a] The resin composition according to any one of [10a] to [12a], wherein the matrix resin contains the following components (A) and (B).
- [14a] The resin composition according to [13a], wherein the component (A) contains a monofunctional (meth)acrylate monomer.
- [15a] The resin composition according to [13a] or [14a], wherein the component (A) contains a polyfunctional (meth)acrylate monomer.
- [16a] The resin composition according to any one of [10a] to [15a], wherein the domain X contains a polymer of (meth)acrylate monomers.
- [17a] The resin composition according to any one of [10a] to [16a], wherein the domain Y comprises a cured epoxy resin.
- [18a] Any one of [13a] to [17a], wherein the component (B) is at least one selected from dicyandiamide, ureas, imidazoles, and aromatic amines (b1).
- the resin composition according to . [19a] The resin composition according to [18a], containing 1 to 15 parts by mass of the component (b1) with respect to 100 parts by mass of the total epoxy resin contained in the matrix resin.
- [20a] The resin composition according to any one of [13a] to [19a], wherein the component (B) contains peroxide compounds.
- FIG. 1 is a cross-sectional view of a cured matrix resin.
- prepreg One form of prepreg includes carbon fibers and a matrix resin.
- the matrix resin contains an epoxy resin, and when the matrix resin is cured under the following curing conditions, the cured product has a sea-island phase separation structure consisting of domains X and domains Y.
- Domain X has a size R measured by the following measurement method. An island portion of 400 nm or less is formed, and the ratio L/R of the distance L between domains X to the size R is 1.1 or more.
- the matrix resin may contain the following components (A) and/or (B).
- the matrix resin it is preferable to use the matrix resin alone taken out from the prepreg or the matrix resin before being impregnated.
- the cut piece may be obtained from the cured matrix resin by flowing so as to fill the cut out part.
- the cut piece may be obtained from a cured product of the matrix resin exuded from the carbon fiber substrate portion when the prepreg is heat-cured under pressure. Measurement condition; As a pretreatment, a 60-90 nm thick section is cut from the cross section of the cured product using an ultramicrotome, and the obtained section is subjected to electron staining by exposing it to RuO 4 vapor for 7 minutes. Alternatively, an electron-stained section is obtained by cutting a section of 60 to 90 nm thickness using an ultramicrotome from a cross section of the cured product previously exposed to OsO 4 vapor for 16 hours.
- the cross section of the cured product can have a size of 500 ⁇ m ⁇ 300 ⁇ m.
- TEM transmission electron microscope
- the phase-separated structure of the electron-stained section is observed with an acceleration voltage of 80 kV to obtain a TEM image.
- the obtained TEM image is subjected to smoothing and background subtraction using image analysis software, and then the boundary of the binarized image is detected.
- the size R is the median value of the maximum Feret diameter of the domain X.
- the distance L between domains X is the median value of the distances from the center of gravity of a domain X to the center of gravity of another domain X which is the nearest neighbor.
- a phase-separated structure can be formed by the presence of two or more phases mainly composed of different components among the components constituting the cured product.
- a state in which each component is homogeneously dissolved before curing may be phase-separated into two or more phases during the curing process.
- the maximum Feret diameter of the phases mainly composed of different components is less than 1 nm, it is regarded as a compatible state.
- the phase separation structure can be observed by observing a smooth cross section of the cured product with a scanning electron microscope, a transmission electron microscope, an atomic force microscope, or the like.
- a smooth cross section of the cured product can be obtained by using a microtome method or a freeze-fracture method for a cured product that does not contain reinforcing fibers, and a mechanical polishing method or ion milling method for a cured product that contains reinforcing fibers. It can be obtained by a focused ion beam processing method or the like.
- the cross section to be observed preferably has such smoothness (mirror surface) as to uniformly reflect light.
- electron staining may be performed as necessary. Staining can be done with common staining agents such as RuO4 and OsO4 . If there are two or more domains with different contrasts in the electron microscope image, it can be determined that there are two or more phase separation structures.
- a sea-island phase separation structure is formed by the cured product having a continuous phase and a dispersed phase.
- domain X is the phase indicated by 2 corresponding to the island
- domain Y is the phase indicated by 1 corresponding to the sea.
- the size R of the domain X is 400 nm or less, preferably 300 nm or less from the viewpoint of toughness. From the viewpoint of achieving both toughness and elastic modulus, the size R is preferably 1 nm or more, more preferably 20 nm or more.
- the ratio L/R of the distance L between the domains X to the size R is 1.1 or more, and is preferably 1.25 or more because uniform dispersion of the domains X without agglomeration is effective for improving the toughness. , 1.5 or more is more preferable. It is preferably 100 or less from the viewpoint of exhibiting toughness by keeping the distance between domains X moderate.
- the size R of the domain X is the median value of the maximum distance (maximum Feret diameter) between parallel tangent lines in contact with the opposing contour lines for each domain X, as indicated by 3 in FIG.
- the inter-domain X distance L is the median value of the distances from the center of gravity of one domain X to the center of gravity of another nearest neighbor domain X (nearest neighbor distance). Each median value is obtained from the distribution of size R and distance L after analyzing 150 or more domains X. If domains smaller than, for example, 1/20 of the domain to be analyzed are extracted, they can be removed as noise.
- the domain X preferably contains a polymer of (meth)acrylate monomers.
- domain Y which is a continuous phase, preferably contains a cured epoxy resin having excellent adhesion to carbon fibers.
- the size R of domain X can be increased by at least one of the following adjustment methods.
- the size R of domain X can be reduced by at least one of the following adjustment methods.
- the matrix resin contains (meth)acrylate monomers to increase the ratio of polyfunctionals in the (meth)acrylate monomers.
- Component (A) is a (meth)acrylate monomer.
- Component (A) contributes to improving the strength, elastic modulus and toughness of the cured product.
- Examples of (meth)acrylate monomers include monofunctional (meth)acrylate monomers and bifunctional (meth)acrylate monomers (sometimes referred to as polyfunctional (meth)acrylate monomers). One of these may be used alone, or two or more may be used in combination. In order to balance the strength, elastic modulus, and toughness of the cured product, and from the viewpoint of dimensional stability during molding, it is possible to use a monofunctional (meth)acrylate monomer and a di- to tetrafunctional (meth)acrylate monomer together. preferable.
- the molecular weight of the (meth)acrylate monomer is preferably 200 or more, more preferably 250 or more, because the impregnation temperature can be increased when used for prepreg. From the viewpoint of uniform dispersion in the matrix resin, the molecular weight is preferably 2000 or less, more preferably 1500 or less. From the viewpoint of the toughness of the cured product, the polyfunctional (meth)acrylate monomer is preferably a monomer having a structural formula represented by the following formula (1).
- X is each independently ethylene oxide or propylene oxide
- n, m, and l are each independently an integer of 0 to 10
- Y is an acryloyl group or a hydrogen atom.
- Monofunctional (meth)acrylate monomers include 2-hydroxyethyl (meth)acrylate, 2-hydroxypropyl (meth)acrylate, 4-hydroxybutyl (meth)acrylate, 4-hydroxybenzyl (meth)acrylate, 4-hydroxyphenyl (meth) acrylate, cyclohexanedimethanol mono (meth) acrylate, tetrahydrofurfuryl (meth) acrylate, phenoxyethyl (meth) acrylate, cyclohexyl (meth) acrylate, isobornyl (meth) acrylate, norbornyl (meth) acrylate, 2-( meth)acryloyloxymethyl-2-methylbicycloheptane, adamantyl (meth)acrylate, benzyl (meth)acrylate, phenyl (meth)acrylate, dicyclopentenyl (meth)acrylate, dicyclopentanyl (meth)acrylate, tetracyclo
- Isobornyl (meth)acrylate, tetrahydrofurfuryl (meth)acrylate, phenoxyethyl (meth)acrylate, dicyclopentenyl (meth)acrylate from the viewpoint of improving the toughness of the cured product and suppressing volatilization of the monomer at the impregnation temperature during prepreg production.
- dicyclopentanyl (meth)acrylate are preferred.
- Bifunctional (meth)acrylate monomers include ethylene glycol, diethylene glycol, triethylene glycol, tetraethylene glycol, propylene glycol, dipropylene glycol, tripropylene glycol, tetrapropylene glycol, 1,3-butylene glycol, 1,4 -butanediol, 1,5-pentanediol, neopentyl glycol, 3-methyl-1,5-pentanediol, 2,4-diethyl-1,5-pentanediol, 1,6-hexanediol, 1,9- nonanediol, 2-methyl-1,8-octanediol, 1,10-decanediol, neopentyl glycol hydroxypivalate, tricyclodecanedimethanol, cyclohexanedimethanol, bisphenol A, hydrogenated bisphenol A, dioxane glycol, bis Diols such as phen
- a bifunctional (meth)acrylate monomer having a glycol skeleton is preferable from the viewpoint of compatibility with the epoxy resin, and a bifunctional (meth)acrylate monomer having a bisphenol A skeleton is preferable from the viewpoint of obtaining high mechanical properties.
- Trifunctional (meth)acrylate monomers include trimethylolpropane, tris(2-hydroxyethyl)isocyanurate, glycerol, pentaerythritol, and other triols and tetraols obtained by adding ethylene oxide, propylene oxide, caprolactone, and the like. Examples thereof include tri(meth)acrylates obtained by esterifying alcohols by reacting them with (meth)acrylic acid. Trifunctional (meth)acrylate monomers obtained from tris(2-hydroxyethyl)isocyanurate are preferred, and are obtained by esterification by reacting tris(2-hydroxyethyl)isocyanurate with (meth)acrylic acid. A functional (meth)acrylate monomer is more preferable, and a trifunctional (meth)acrylate monomer represented by the following formula (2) is even more preferable.
- tetrafunctional (meth)acrylate compounds include polyols such as ditrimethylolpropane, pentaerythritol, dipentaerythritol and tripentaerythritol, and polyols obtained by adding ethylene oxide, propylene oxide or caprolactone to these polyols.
- poly(meth)acrylates obtained by esterification by reacting with (meth)acrylic acid examples include poly(meth)acrylates obtained by esterification by reacting with (meth)acrylic acid.
- the matrix resin may contain the following component (C) different from component (A).
- the content can be 0.5 parts by mass or more and 30 parts by mass or less with respect to 100 parts by mass of the total epoxy resin.
- Component (C): (meth)acrylate oligomer (Meth)acrylate oligomers include 1,3- and 1,4-diisocyanatocyclohexane, 3-isocyanatomethyl-3,5,5-trimethylcyclohexyl isocyanate, 4,4′-methylenedicyclohexyl diisocyanate, 2,4 - at least one polyisocyanate such as methylenedicyclohexyl diisocyanate, 2,2'-methylenedicyclohexyl diisocyanate, tolylene diisocyanate, diphenylmethane diisocyanate, hexamethylene diisocyanate, hydroxyethyl (meth)acrylate, hydroxypropyl (meth)acrylate, Examples include
- vinyl ester monomers such as vinyl acetate, vinyl butyrate, N-vinylformamide, N-vinylacetamide, N-vinyl-2-pyrrolidone, N-vinylcaprolactam and divinyl adipate; vinyl ethers such as ethyl vinyl ether and phenyl vinyl ether acrylamide, N,N-dimethylacrylamide, N,N-dimethylmethacrylamide, N-methylolacrylamide, N-methoxymethylacrylamide, N-butoxymethylacrylamide, Nt-butylacrylamide, N-benzyl(meth)acrylamide, Using acrylamides such as N-phenyl(meth)acrylamide, N-(4-hydroxybenzyl)(meth)acrylamide, N-(4-hydroxyphenyl)(meth)acrylamide, acryloylmorpholine, hydroxyethylacrylamide and methylenebisacryl
- Component (A) is preferably contained in an amount of 5 parts by mass or more, more preferably 10 parts by mass or more, based on 100 parts by mass of the total epoxy resin in the prepreg. It is preferably contained in an amount of 45 parts by mass or less, more preferably 40 parts by mass or less, based on 100 parts by mass of the total epoxy resin in the prepreg.
- the content of component (A) is within this range, the size of the phase-separated structure is within an appropriate range, and the strength, elastic modulus, and strain are well balanced.
- the content of the polyfunctional (meth)acrylate monomer in the component (A) is preferably 5% by mass or more, since a cured product having excellent interfacial adhesion with the epoxy component can be obtained and the strength is excellent. % by mass or more is more preferable, and 70% by mass or more is even more preferable. From the viewpoint of controlling the phase separation structure and improving the toughness associated therewith, the content is preferably 90% by mass or less, more preferably 80% by mass or less.
- the content of the monofunctional (meth)acrylate monomer in component (A) is preferably 1% by mass or more, more preferably 10% by mass or more, more preferably 20% by mass, from the viewpoint of controlling the phase separation structure and improving the toughness associated therewith. The above is more preferable.
- polyfunctional (meth)acrylate monomers and monofunctional (meth)acrylate monomers can be specified by separation analysis methods such as gas chromatography and liquid chromatography in the case of prepregs, and thermal decomposition in the case of cured products. It can be identified by gas chromatography.
- Component (B) is a curing agent. It preferably contains a component (b1) that cures the epoxy resin or (b2) that cures the component (A), and is more preferably used in combination.
- a component (b1) dicyandiamide, ureas, imidazoles, aromatic amines, other amine-based curing agents, acid anhydrides, boron chloride amine complexes, etc. can be used, particularly dicyandiamide, ureas, imidazoles. It is preferable to use at least one curing agent selected from aromatic amines.
- the content of component (b1) is preferably 1 part by mass or more, and preferably 2 parts by mass or more, based on 100 parts by mass of the total epoxy resin contained in the matrix resin. is more preferred. From the viewpoint of suppressing poor appearance after curing, the content is preferably 15 parts by mass or less, more preferably 12 parts by mass or less.
- Dicyandiamide has a high melting point and is less compatible with epoxy resins at low temperatures, so when used as a curing agent (b1), the pot life of resin compositions and prepregs is excellent.
- Examples of commercial products of dicyandiamide include DICY7, DICY15 (manufactured by Mitsubishi Chemical Corporation) and DICYANEX1400F (manufactured by Evonik Japan Ltd.).
- the content of dicyandiamide is preferably 1 to 15 parts by mass, more preferably 2 to 10 parts by mass with respect to 100 parts by mass of the total epoxy resin contained in the matrix resin.
- the number of moles of active hydrogen in dicyandiamide is preferably 0.4 to 1 times the total number of moles of epoxy groups in the epoxy resin contained in the matrix resin. From the viewpoint of heat resistance of the cured product, the number of moles of active hydrogen in dicyandiamide is more preferably 0.5 to 0.8 times.
- Ureas activate epoxy groups by heating.
- ureas include aromatic dimethylurea in which a dimethylureido group is bonded to an aromatic ring, and aliphatic dimethylurea in which a dimethylureido group is bonded to an aliphatic compound.
- aromatic dimethyl urea is preferable because it tends to increase the curing speed and the heat resistance and bending strength of the cured product.
- Aromatic dimethylurea includes phenyldimethylurea, methylenebis(phenyldimethylurea), and tolylenebis(dimethylurea). Specific examples include 4,4′-methylenebis(phenyldimethylurea) (MBPDMU), 3-phenyl-1,1-dimethylurea (PDMU), 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), 3-(3-chloro-4-methylphenyl)-1,1-dimethylurea, 2,4-bis(3,3-dimethylureido)toluene (TBDMU), m-xylylene diisocyanate and dimethylamine Dimethyl urea obtained from and the like.
- MBPDMU 4,4′-methylenebis(phenyldimethylurea)
- PDMU 3-phenyl-1,1-dimethylurea
- DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylure
- DCMU, MBPDMU, TBDMU, and PDMU are more preferable from the viewpoint of curing acceleration ability and imparting heat resistance to cured products.
- aliphatic dimethylurea include dimethylurea obtained from isophorone diisocyanate and dimethylamine, dimethylurea obtained from hexamethylene diisocyanate and dimethylamine, and the like. These may be used individually by 1 type, and may be used in combination of 2 or more type.
- DCMU-99 manufactured by Hodogaya Chemical Co., Ltd.
- DCMU Technicure MDU-11
- MBPDMU Terylene-99
- Omicure 52 manufactured by A&C Catalysts
- TBDMU such as Omicure 24 (or more, P.I.T.
- the content of ureas is preferably 1 to 15 parts by mass, more preferably 2 to 10 parts by mass, with respect to 100 parts by mass of the total epoxy resin contained in the matrix resin.
- the content of urea is 1 part by mass or more, the curing of the epoxy resin tends to be accelerated and the mechanical properties of the cured product can be improved.
- the content of ureas is 15 parts by mass or less, the toughness of the cured product tends to be kept high.
- Imidazoles have a nitrogen atom with a lone pair of electrons in their structure and can activate epoxy groups.
- imidazoles imidazole, imidazole adduct, clathrate imidazole, microcapsule-type imidazole, imidazole compound coordinated with a stabilizer, and the like can also be used.
- imidazole examples include 2-methylimidazole, 2-ethyl-4-methylimidazole, 2-undecylimidazole, 2-heptadecylimidazole, 1,2-dimethylimidazole, 2-phenylimidazole, 2-phenyl-4 -methylimidazole, 1-benzyl-2-phenylimidazole, 1-benzyl-2-methylimidazole, 1-cyanoethyl-2-methylimidazole, 1-cyanoethyl-2-ethyl-4-methylimidazole, 1-cyanoethyl-2- undecylimidazole, 1-cyanoethyl-2-phenylimidazole, 1-cyanoethyl-2-ethyl-4-methylimidazolium trimellitate, 1-cyanoethyl-2-undecylimidazolium trimellitate, 1-cyanoethyl-2- phenylimidazolium trimellitate, 2,4-d
- Examples of commercially available imidazole products include 2E4MZ, 2P4MZ, 2PZ-CN, C11Z-CNS, C11Z-A, 2MZA-PW, 2MA-OK, 2P4MHZ-PW, and 2PHZ-PW (manufactured by Shikoku Kasei Co., Ltd.). be done.
- Commercially available imidazole adducts include PN-50, PN-50J, PN-40, PN-40J, PN-31, PN-23, and PN, which have a ring-opening addition structure of an imidazole compound to an epoxy group of an epoxy resin. -H (manufactured by Ajinomoto Fine-Techno Co., Inc.).
- inclusion imidazole examples include TIC-188, KM-188, HIPA-2P4MHZ, NIPA-2P4MHZ, TEP-2E4MZ, HIPA-2E4MZ, and NIPA-2E4MZ (manufactured by Nippon Soda Co., Ltd.).
- Commercially available products of microcapsule-type imidazole include Novacure HX3721, HX3722, HX3742, HX3748 (manufactured by Asahi Kasei E-materials); LC-80 (manufactured by A&C Catalysts).
- the imidazole compound coordinated with a stabilizer is an imidazole adduct manufactured by Shikoku Kasei Co., Ltd.
- Cure Duct P-0505 bisphenol A diglycidyl ether / 2-ethyl-4-methylimidazole adduct), Shikoku Kasei Co., Ltd. It can be prepared by combining L-07N (epoxy-phenol-borate ester compound), which is a stabilizer manufactured by Co., Ltd. Similar effects can be obtained by using imidazole compounds such as various imidazoles and imidazole adducts mentioned above instead of Cure Duct P-0505.
- the content of imidazoles is preferably 1 to 15 parts by mass, more preferably 2 to 10 parts by mass, based on 100 parts by mass of the total epoxy resin contained in the matrix resin.
- the imidazole content is 1 part by mass or more, the curing of the epoxy resin tends to be promoted more.
- the content of imidazoles is 15 parts by mass or less, there is a tendency that a cured product having excellent mechanical properties can be obtained.
- aromatic amines examples include 3,3′-diisopropyl-4,4′-diaminodiphenylmethane, 3,3′-di-t-butyl-4,4′-diaminodiphenylmethane, 3,3′-diethyl- 5,5′-dimethyl-4,4′-diaminodiphenylmethane, 3,3′-diisopropyl-5,5′-dimethyl-4,4′-diaminodiphenylmethane, 3,3′-di-t-butyl-5, 5'-dimethyl-4,4'-diaminodiphenylmethane, 3,3',5,5'-tetraethyl-4,4'-diaminodiphenylmethane, 3,3'-diisopropyl-5,5'-diethyl-4,4 '-diaminodiphenylmethane, 3,3'-di-t
- 4,4'-diaminodiphenyl sulfone and 3,3'-diaminodiphenyl sulfone are preferable because they provide cured products having excellent heat resistance and elastic modulus, and having a small decrease in heat resistance due to linear expansion coefficient and moisture absorption.
- 4,4'-diaminodiphenyl sulfone is preferable in that the tack life of the prepreg can be maintained for a long period of time.
- 3,3'-Diaminodiphenyl sulfone is preferable because it can increase the elastic modulus and toughness of the cured product.
- 4,4'-diaminodiphenylsulfone and 3,3'-diaminodiphenylsulfone may be used together. These aromatic amines may be used alone or in combination.
- the content of aromatic amines is preferably 1 to 15 parts by mass, more preferably 2 to 10 parts by mass, with respect to 100 parts by mass of the total epoxy resin contained in the matrix resin.
- the active hydrogen equivalent number of the amino group is preferably 0.5 to 1.5 times, more preferably 0.6 to 1.4 times, the epoxy equivalent number of all the epoxy resins contained in the matrix resin. .
- aromatic amines include Seikacure S (active hydrogen equivalent: 62 g/eq, manufactured by Wakayama Seika Kogyo Co., Ltd.), Sumicure S (active hydrogen equivalent: 62 g/eq, Sumitomo Chemical Co., Ltd.), and commercial products of 3,3′-diaminodiphenylsulfone include 3,3′-DAS (active hydrogen equivalent: 62 g/eq, Mitsui Chemicals Fine Co., Ltd.).
- Other aromatic amines include MDA-220 (active hydrogen equivalent 50 g/eq, manufactured by Mitsui Chemicals, Inc.), "jER Cure (registered trademark)" W (active hydrogen equivalent 45 g/eq, manufactured by Mitsubishi Chemical Corporation).
- amine-based curing agents that can be used as component (b1) include metaphenylenediamine, diaminodiphenylmethane, metaxylenediamine, isophoronediamine, and triethylenetetramine.
- acid anhydrides that can be used as component (b1) include hydrogenated methylnadic anhydride and methylhexahydrophthalic anhydride.
- the component (b2) includes a radical polymerization initiator.
- a thermal radical polymerization initiator or a photoradical polymerization initiator can be used as the radical polymerization initiator. Among them, it is more preferable to use a thermal radical polymerization initiator because it can initiate radical polymerization at the same time as thermal curing of the epoxy resin.
- Thermal radical polymerization initiators include azo compounds and peroxide compounds. Among them, peroxide compounds are preferable because they do not generate gas during thermal decomposition.
- azo compounds examples include 2,2-azobis(isobutyronitrile), 2,2-azobis(2,4-dimethylvaleronitrile), dimethyl 2,2-azobis(2-methylpropionate), 2,2-azobis(2-methylbutyronitrile), 1,1-azobis(cyclohexane-1-carbonitrile), 2,2-azobis(N-butyl-2-methylpropionamide), dimethyl 1,1- Azobis(1-cyclohexanecarboxylate) can be mentioned.
- peroxide compounds include ketone peroxides such as methyl ethyl ketone peroxide (110° C.) and acetylacetone peroxide (130° C.), 1,1-di(t-butylperoxy)3,3,5-trimethyl Cyclohexane (95°C), 1,1-di(t-hexylperoxy)cyclohexane (87.1°C), 1,1-di(t-butylperoxy)cyclohexane (90.7°C), 2,2- Di(t-butylperoxy)butane (103.1°C), n-butyl 4,4-di(t-butylperoxy)valerate (104.5°C), 2,2-di(4,4-di -t-butylperoxycyclohexyl)propane (94.7°C), 1,1-di(t-hexylperoxy)3,3,5-trimethylcyclohexane (86.7°C), 1,1-di(t t
- photoradical polymerization initiators include benzophenone, 4,4-bis(diethylamino)benzophenone, 2,4,6-trimethylbenzophenone, methylorthobenzoylbenzoate, 4-phenylbenzophenone, 2-hydroxy-1-[4 -[4-(2-hydroxy-2-methyl-propionyl)benzyl]phenyl]-2-methylpropan-1-one, t-butylanthraquinone, 2-ethylanthraquinone, diethoxyacetophenone, 2-hydroxy-2-methyl -1-phenylpropan-1-one, benzyl dimethyl ketal, 1-hydroxycyclohexyl-phenyl ketone, benzoin methyl ether, benzoin ethyl ether, benzoin isopropyl ether, benzoin isobutyl ether, 2-methyl-[4-(methylthio)phenyl] -2-morpholino-1-propanone, 2-benzyl-2
- Component (b2) is selected from the group consisting of diacyl peroxides, alkylperoxyesters, peroxydicarbonates, peroxyketals, dialkyl peroxides, and hydroperoxides in order to polymerize component (A) and increase the molecular weight. It preferably contains at least one selected peroxide compound.
- the exemplified compounds can be used singly or in combination of two or more as the component (b2). From the viewpoint of storage stability of the prepreg, compounds having a 10-hour half-life temperature of 70° C. or higher are preferred, and compounds having a 10-hour half-life temperature of 100° C. or higher are more preferred. In order to facilitate the polymerization of component (A) during the curing process of the epoxy resin, the 10-hour half-life temperature can be 150° C. or less.
- the content of component (b2) is preferably 0.1 parts by mass or more, more preferably 0.2 parts by mass or more, relative to 100 parts by mass of the entire matrix resin, from the viewpoint of promoting curing. From the viewpoint of storage stability of the prepreg, it is preferably contained in an amount of 5 parts by mass or less, more preferably 3 parts by mass or less, based on 100 parts by mass of the entire matrix resin.
- Epoxy resins include bisphenol A-type epoxy resins, bisphenol F-type epoxy resins, epoxy resins having an oxazolidone ring skeleton, novolac-type epoxy resins, glycidylamine-type epoxy resins, hydrophthalic acid-type epoxy resins, bisphenol S-type epoxy resins, and resorcinol-type epoxy resins. Epoxy resins, hydroquinone type epoxy resins, bisphenoxyethanol fluorene type epoxy resins, bisphenol fluorene type epoxy resins, biscresol fluorene type epoxy resins, and the like.
- one or more epoxy resins selected from bisphenol A-type epoxy resins, bisphenol F-type epoxy resins, epoxy resins having an oxazolidone ring skeleton, novolac-type epoxy resins, and glycidylamine-type epoxy resins are preferred.
- Liquid and solid epoxy resins which will be described later, can be used in combination. By combining multiple types of epoxy resins, it is possible to obtain a prepreg having excellent handleability and a fiber-reinforced plastic having excellent mechanical properties and heat resistance.
- a liquid epoxy resin is an epoxy resin that is liquid at 25°C.
- a liquid epoxy resin contributes to improving the solubility of a thermoplastic resin and improving the strength, elastic modulus, and heat resistance of a cured product.
- the viscosity of the epoxy resin that is liquid at 25°C is preferably 500 Pa ⁇ s or less, more preferably 300 Pa ⁇ s or less at 25°C. Moreover, it is preferable that it is 0.1 Pa.s or more. When the viscosity is within this range, the workability of the epoxy resin composition can be improved. Viscosity can be measured by applying periodic deformation (strain) to a sample with a rotational rheometer and detecting the resulting stress and phase difference.
- a bisphenol type epoxy resin is preferred.
- the epoxy resin is preferably 70 parts by mass or more, more preferably 80 parts by mass or more, relative to 100 parts by mass of the matrix resin. It can be 95 parts by mass or less with respect to 100 parts by mass of the matrix resin.
- the content of the liquid epoxy resin is preferably 20 parts by mass or more and 80 parts by mass or less with respect to 100 parts by mass of the total epoxy resin contained in the epoxy resin composition.
- the lower limit of the content of the liquid epoxy resin is more preferably 25 parts by mass or more, still more preferably 28 parts by mass or more, because a cured resin product having excellent strength and elastic modulus can be obtained.
- the upper limit of the content of the liquid epoxy resin is more preferably 75 parts by mass or less, still more preferably 70 parts by mass or less, and particularly preferably 50 parts by mass or less because a cured product having excellent toughness can be obtained. is.
- the content can be the amount mixed when producing the resin composition.
- liquid epoxy resins include jER827 (epoxy equivalent: 185 g/eq) and jER828 (epoxy equivalent: 189 g/eq) (Mitsubishi Chemical Co., Ltd.), YD-127 (epoxy equivalent 185 g / eq), YD-128 (epoxy equivalent 189 g / eq) (manufactured by Nippon Steel Chemical & Materials Co., Ltd.), EPICLON840 (epoxy equivalent 185 g / eq), EPICLON850 ( epoxy equivalent of 189 g/eq) (manufactured by DIC Corporation); E. R331 (epoxy equivalent 187/eq), D.I. E.
- Bisphenol F type epoxy resin liquid epoxy resin liquid at 25°C
- R332 epoxy equivalent 173 g/eq
- jER806 epoxy equivalent 165 g/eq
- jER807 epoxy equivalent 170 g / eq
- YDF-170 epoxy equivalent 170 g / eq
- EPICLON830 epoxy equivalent 170 g / eq
- EPICLON835 epoxy equivalent 172 g/eq
- D.I. E. R354 epoxy equivalent: 170 g/eq
- One of these may be used alone, or two or
- the solid epoxy resin is preferably an epoxy resin having a softening point of 70°C or higher.
- a bisphenol-type epoxy resin having a softening point of 70° C. or higher, an epoxy resin having an oxazolidone ring skeleton, and an epoxy resin pre-reacted with a curing agent can be used.
- the softening point is preferably 72° C. or higher, more preferably 75° C. or higher, since the cured resin has excellent toughness.
- the temperature is preferably 150° C. or lower, more preferably 145° C. or lower, because the heat resistance of the cured resin is properly maintained and a prepreg having excellent drapeability (mold conformability) can be obtained.
- the content of the solid epoxy resin is preferably 10 parts by mass or more and 80 parts by mass or less with respect to 100 parts by mass of the total epoxy resin contained in the epoxy resin composition.
- the lower limit of the content of the solid epoxy resin is more preferably 13 parts by mass or more, still more preferably 15 parts by mass or more, because a prepreg with excellent tackiness and a cured resin product with excellent toughness can be obtained.
- the upper limit of the content of the solid epoxy resin is more preferably 70 parts by mass or less, still more preferably 60 parts by mass or less, since a prepreg with excellent mold conformability can be obtained.
- the content can be the amount mixed when producing the resin composition.
- Solid epoxy resins include jER1055, jER1004, jER1007, jER1009 (all trade names, manufactured by Mitsubishi Chemical Corporation), EPICLON2050, EPICLON3050, EPICLON4050, EPICLON7050, EPICLON HM-091, as bisphenol A type epoxy resins.
- EPICLON HM-101 (all trade names, manufactured by DIC Corporation), YD-902, YD-903N, YD-904, YD-907, YD-7910, YD-6020 (all trade names, Nippon Steel Chemical & Material Co., Ltd.), jER4004P, jER4005P, jER4007P, jER4010P (all trade names, manufactured by Mitsubishi Chemical Corporation), YDF-2004, YDF-2005RD (both trade names, Nippon Steel Chemical & AER4152, AER4151, LSA3301, LSA2102 (all trade names, manufactured by Asahi Kasei E-Materials Co., Ltd.), ACR1348 (trade name, manufactured by ADEKA Corporation), DER852, DER858 (trade name, manufactured by THE DOW CHEMICAL COMPANY), TSR-400 (trade name, manufactured by DIC), YD-952 (trade name, manufactured by Nippon Steel Chemical & Material Co
- the matrix resin may contain epoxy resins other than the epoxy resins described above.
- Other epoxy resins include jER834 (trade name, manufactured by Mitsubishi Chemical Corporation), EPICLON860 (trade name, manufactured by DIC Corporation), YD-134 (trade name, manufactured by Nippon Steel Chemical & Materials Co., Ltd.), and other bisphenol A. type epoxy resins, EPICLON N-740 (trade name, manufactured by DIC Corporation) and YDPN-638 (trade name, manufactured by Nippon Steel Chemical & Materials Co., Ltd.) and other novolac type epoxy resins. One of these may be used alone, or two or more may be used in combination.
- thermoplastic resin can be used for the matrix resin composition.
- thermoplastic resins include polyamides, polyesters, polycarbonates, polyethersulfones, polyphenylene ethers, polyphenylene sulfides, polyetheretherketones, polyetherketones, polyimides, polytetrafluoroethylenes, polyethers, polyolefins, liquid crystal polymers, polyarylates, Polysulfone, polyacrylonitrile styrene, polystyrene, polyacrylonitrile, polymethyl methacrylate, ABS (acrylonitrile-butadiene-styrene copolymer), AES (acrylonitrile-ethylene propylene rubber-styrene copolymer), ASA (acrylonitrile-acrylic rubber-styrene) copolymers), polyvinyl chloride, polyvinyl formal resins, phenoxy resins, block polymers and the like, but are not limited
- polyether sulfone, polyvinyl formal resin, and phenoxy resin are more preferable because they are excellent in resin flow controllability to the reinforcing fiber.
- Polyvinyl formal resin is more preferable because it is excellent in resin flow controllability even in a small amount.
- the thermoplastic resin may be used alone or in combination of two or more.
- the content of the thermoplastic resin is preferably 1 part by mass or more and 30 parts by mass or less, more preferably 2 parts by mass or more and 10 parts by mass or less, based on 100 parts by mass of the total epoxy resin contained in the matrix resin. It is more preferable to contain 3 parts by mass or more and 6 parts by mass or less. If the content of the thermoplastic resin is 1 part by mass or more, it is preferable because resin flow control tends to be satisfactorily exhibited. On the other hand, if the content of the thermoplastic resin is 30 parts by mass or less, the increase in viscosity during impregnation with the resin is reduced, which is preferable.
- thermoplastic resins phenoxy resin, polyethersulfone, polyetherimide, polyvinyl formal, and block polymer are preferable from the viewpoint of excellent resin flow controllability.
- the use of phenoxy resins, polyethersulfones, and polyetherimides further enhances the heat resistance and flame retardancy of cured resins.
- Additives include, for example, curing accelerators for epoxy resins, inorganic fillers, internal release agents, organic pigments, and inorganic pigments. If necessary, the epoxy resin composition may contain various known additives within a range that does not impair the effects of the present invention.
- Additives include phosphorus-based flame retardants (phosphorus-containing epoxy resins, red phosphorus, phosphazene compounds, phosphates, phosphate esters, etc.), and inorganic flame retardants such as hydrated metal compounds (aluminum hydroxide, water magnesium oxide, etc.), inorganic oxides and other auxiliary agents (antimony compounds, zinc borate, zinc stannate, Mo compounds, ZrO, zinc sulfide, zeolite, titanium oxide nanofillers, etc.), silicone oils, wetting and dispersing agents, antifoaming agents , defoaming agents, natural waxes, synthetic waxes, metal salts of straight chain fatty acids, acid amides, esters, paraffins and other release agents, crystalline silica, fused silica, calcium silicate, alumina, calcium carbonate, Examples include powders such as talc and barium sulfate, inorganic fillers such as glass fibers and carbon fibers, coloring agents such as carbon
- a matrix resin composition is obtained, for example, by mixing each component described above.
- the matrix resin composition is preferably a thermosetting resin composition.
- Examples of a method for mixing each component include a method using a mixer such as a three-roll mill, planetary mixer, kneader, homogenizer, and homodisper.
- the matrix resin composition can be used for producing a prepreg by impregnating a reinforcing fiber base material with the matrix resin composition, as described later.
- a film of the matrix resin composition can be obtained by coating the matrix resin composition on release paper or the like and curing the composition.
- the viscosity of the matrix resin composition at 30° C. can be 100 to 1,000,000 Pa ⁇ s.
- the reinforcing fibers can be present in the prepreg as a reinforcing fiber substrate (aggregate of reinforcing fibers), preferably in the form of a sheet.
- the reinforcing fibers may be unidirectionally arranged or randomly arranged.
- Examples of the form of the reinforcing fiber substrate include a reinforcing fiber woven fabric, a reinforcing nonwoven fabric, and a sheet in which long fibers of the reinforcing fiber are aligned in one direction.
- the reinforcing fiber is preferably a sheet consisting of a bundle of reinforcing fibers in which continuous fibers are aligned in a single direction, because it is possible to mold a fiber-reinforced composite material with high specific strength and specific modulus. From the viewpoint that it is easy to fabricate, it is preferably a woven fabric of reinforcing fibers.
- Materials for reinforcing fibers include glass fiber, carbon fiber, aramid fiber, and boron fiber. Carbon fiber is preferable as the reinforcing fiber from the viewpoint of mechanical properties and weight reduction of the resulting fiber-reinforced plastic.
- the fiber diameter of the carbon fiber is preferably 3-12 ⁇ m.
- the number of carbon fibers in the carbon fiber bundle is preferably 1,000 to 70,000.
- the carbon fiber strand tensile strength is preferably 1.5 to 9 GPa, and the carbon fiber strand tensile modulus is preferably 150 to 260 GPa.
- the strand tensile strength and strand tensile modulus of carbon fiber are values measured according to JIS R7601:1986.
- a prepreg is obtained, for example, by impregnating a reinforcing fiber base material with a matrix resin composition.
- the method for impregnating the reinforcing fiber base material with the matrix resin composition includes, for example, a wet method in which the epoxy resin composition is dissolved in a solvent such as methyl ethyl ketone or methanol to reduce the viscosity and then impregnated into the reinforcing fiber base material; A hot-melt method (dry method) in which a reinforcing fiber base material is impregnated with the composition after its viscosity is lowered by heating (dry method), etc., but not limited thereto.
- the impregnation temperature is set according to the viscosity of the matrix resin, but from the viewpoint that the curing reaction of the matrix resin does not start and the reinforcing fibers need to be sufficiently impregnated with the matrix resin, the temperature is preferably 40 to 90°C. , 50 to 80° C. is more preferable.
- the wet method is a method in which a reinforcing fiber base material is immersed in a matrix resin composition solution, then pulled out, and the solvent is evaporated using an oven or the like.
- the hot-melt method includes a method in which a reinforcing fiber base material is directly impregnated with a matrix resin composition whose viscosity has been reduced by heating, and a method in which a matrix resin composition is once applied to the surface of a base material such as release paper to produce a film.
- the resin is impregnated into the reinforcing fiber base material by stacking the films from both sides or one side of the reinforcing fiber base material and applying heat and pressure to the reinforcing fiber base material.
- a coating layer obtained by coating the surface of a substrate such as a release paper may be used in the hot-melt method without being cured, or may be used in the hot-melt method after curing the coating layer.
- the hot-melt method is preferable because substantially no solvent remains in the prepreg.
- the content of the matrix resin composition in the prepreg (hereinafter referred to as "resin content”) is preferably 15 to 50% by mass, more preferably 20 to 45% by mass, more preferably 25 to 40% by mass, relative to the total mass of the prepreg. % by mass is more preferred. If the resin content is at least the above lower limit, sufficient adhesiveness between the reinforcing fibers and the matrix resin can be ensured, and if it is at most the above upper limit, the mechanical properties of the fiber-reinforced plastic are enhanced.
- Fiber reinforced plastics are obtained by curing prepregs. That is, the fiber-reinforced plastic includes a cured matrix resin composition contained in the prepreg and reinforcing fibers.
- a cured product of a laminate in which two or more prepregs are laminated can be obtained.
- a molded article made of fiber-reinforced plastic can be obtained by molding by a method such as heat curing while applying pressure to the obtained laminate.
- a prepreg composed of a thermoplastic resin composition and reinforcing fibers other than the prepreg described above, or a prepreg composed of an epoxy resin composition and reinforcing fibers may be laminated.
- Molding methods include press molding, autoclave molding, bagging molding, wrapping tape, internal pressure molding, sheet wrap molding, and reinforcing fiber filaments and preforms that are impregnated with a matrix resin composition and cured and molded.
- Examples include RTM (Resin Transfer Molding), VaRTM (Vacuum Assisted Resin Transfer Molding), filament winding, RFI (Resin Film Infusion), etc., but are not limited to these molding methods.
- the press molding method is preferable from the viewpoint that the productivity is high and a high-quality fiber-reinforced plastic can be easily obtained.
- prepregs or preforms prepared by laminating prepregs can be sandwiched between molds that have been adjusted to a curing temperature in advance and heated and pressurized to cure the prepregs or preforms.
- the temperature in the mold during press molding is preferably 100 to 160°C. Also, it is preferable to cure the prepreg or preform for 1 to 20 minutes under conditions of 1 to 15 MPa.
- jER807 liquid bisphenol F type epoxy resin (manufactured by Mitsubishi Chemical Corporation, product name "jER807”).
- jER828 liquid bisphenol A type epoxy resin (manufactured by Mitsubishi Chemical Corporation, product name "jER828”).
- jER4007P solid bisphenol F type epoxy resin (manufactured by Mitsubishi Chemical Corporation, product name "jER4007P”).
- jER1004 Solid bisphenol A type epoxy resin (manufactured by Mitsubishi Chemical Corporation, product name "jER 1004").
- YD-952 A solid epoxy resin having an oxazolidone ring skeleton (manufactured by Nippon Steel & Sumitomo Metal Corporation, product name “Epotote YD-952”).
- MY0600 Triglycidyl-m-aminophenol (manufactured by Huntsman Japan Co., Ltd., product name “ARALDITE MY 0600”).
- ⁇ Component (A)> A-9300S: Tris-(2-acryloxyethyl) isocyanurate (trifunctional, manufactured by Shin-Nakamura Chemical Co., Ltd., product name "NK Ester A-9300S").
- IBXA isobornyl acrylate (monofunctional, manufactured by Osaka Organic Chemical Industry Co., Ltd., product name "IBXA”).
- M-315 isocyanuric acid EO-modified di- and triacrylate (trifunctional, manufactured by Toagosei Co., Ltd., product name "Aronix M-315").
- FA-310AH phenoxyethyl acrylate (monofunctional, manufactured by Hitachi Chemical Co., Ltd., product name "FANCRYL FA-310AH” ⁇ Component (b1)>
- DICYANEX 1400F dicyandiamide (active hydrogen equivalent 21 g/eq, manufactured by Evonik Japan Ltd., product name "DICYANEX 1400F”).
- DCMU-99 3-(3,4-dichlorophenyl)-1,1-dimethylurea (manufactured by Hodogaya Chemical Industry Co., Ltd., product name “DCMU-99”).
- Percumyl D dicumyl peroxide (10-hour half-life temperature of 116.4°C, manufactured by NOF Corporation, product name "Percumyl D”).
- Thermoplastic resin > Vinylec E: Polyvinyl formal resin (manufactured by JNC Corporation, product name “Vinylec E”).
- Vinylec K Polyvinyl formal resin (manufactured by JNC Co., Ltd., product name "Vinylec K").
- a resin composition was prepared as follows. First, according to the composition shown in Table 1, the component (b1) (solid) and the liquid component of the epoxy resin were weighed into a container so that the mass ratio of the solid component to the liquid component was 1:1, and mixed with stirring. This was further finely mixed in a three-roll mill to obtain a masterbatch containing a curing agent.
- thermosetting resin composition was prepared in the same manner, a resin plate was produced, and the phase separation structure was measured, but no phase separation structure was confirmed.
- Example 5 Comparative Example 3
- a resin composition was prepared as follows. First, according to the composition shown in Table 1, the component (b1) (solid) and the liquid component of the epoxy resin were weighed into a container so that the mass ratio of the solid component to the liquid component was 1:1, and mixed with stirring. This was further finely mixed in a three-roll mill to obtain a masterbatch containing a curing agent.
- epoxy resins and thermoplastic resins other than those used in the curing agent-containing masterbatch were weighed into a flask, heated and stirred at 150° C. using an oil bath, and dissolved and mixed. After cooling to about 65° C., the masterbatch containing the curing agent was added and mixed with stirring to obtain an uncured thermosetting resin composition.
- Preparation of resin plate An uncured thermosetting resin composition is injected between two glass plates, molded into a plate shape, heated at a rate of 2° C./min, and held at an oven ambient temperature of 130° C. for 90 minutes for heat curing. A resin plate having a thickness of 2 mm was produced.
- the bending elastic modulus (unit: GPa) was calculated by the secant method in the interval of bending strain of 0.05 to 0.25%.
- the maximum bending stress of the stress-strain curve obtained under the above measurement conditions was obtained as the bending strength (unit: MPa), and the bending strain at the maximum bending stress was obtained as the maximum stress strain (unit: %).
- the bending strain when the test piece broke under the above measurement conditions was obtained as the breaking strain (unit: %).
- phase separation structure A 70 nm-thick ultra-thin section was cut from the 2 mm-thick resin plate obtained in the above "Preparation of Resin Plate", and the obtained section was subjected to electron staining by exposing it to RuO 4 vapor for 7 minutes.
- the phase separation structure of the stained ultra-thin section was observed using a transmission electron microscope (TEM) at an accelerating voltage of 80 kV. Domain X size R and distance L between domains X were measured by analyzing the obtained TEM image using image analysis software ImageJ.
- TEM transmission electron microscope
- the median value of the maximum Feret diameters of the domains X was defined as the domain X size R, and the median value of the nearest neighbor distances of the domains X was defined as the distance L between the domains X.
- the size R of the domains X is the median of the maximum distances (maximum Feret diameters) between parallel tangents tangent to the opposing contour lines for each domain X.
- the inter-domain X distance L is the median value of the distances from the center of gravity of one domain X to the center of gravity of another nearest neighbor domain X (nearest neighbor distance). Each median value was determined from the distribution of size R and distance L after analyzing 150 or more domains X.
- TEM device JEM-1400Flash (manufactured by JEOL Ltd.) Conditions: acceleration voltage 80 kV Observation magnification: 3000 times
- the resin compositions produced in Experimental Examples 1 to 4 showed better elastic modulus and breaking strain than Comparative Example 1. In Comparative Example 2, no phase separation structure was confirmed.
- the resin composition prepared in Experimental Example 5 showed better breaking strain results than Comparative Example 3.
- a fiber-reinforced plastic obtained by using the resin composition prepared in the experimental example as a prepreg and curing the prepreg is considered to have excellent elastic modulus and elongation.
- thermosetting resin composition was prepared in the same manner as in Experimental Example 1, except that FA-310AH was used as the component (A) and 0.53 parts by mass of Permil D was used, as shown in Table 1.
- the product 1 was prepared, the resin plate 1 was produced, and the phase separation structure was measured, the phase separation structure was confirmed.
- a comma coater manufactured by HIRANO TECSEED Co., Ltd., "M-500"
- uncured thermosetting resin composition 1 was coated on release paper at a resin basis weight of 27 g/m 2 to prepare a resin film. .
- Carbon fibers (TR 50S15L, manufactured by Mitsubishi Chemical Corporation) were wound on the resin film by a drum winding device so as to form a sheet having a fiber basis weight of 125 g/m 2 . Furthermore, another sheet of resin film was attached to the carbon fiber sheet on a drum winding device.
- the carbon fiber sheet sandwiched between two resin films is passed through a fusing press (JR-600LTSW, Asahi Textile Machinery Industry Co., Ltd.) under the conditions of a temperature of 70 ° C., a pressure of 0.2 MPa, and a feed rate of 3 m / min.
- a unidirectional prepreg having a prepreg basis weight of 179 g/m 2 and a resin content of 30% by mass was obtained.
- 18 sheets of the obtained prepreg are laminated so that the carbon fibers are in the same direction, and the temperature is raised to 130 ° C. at 2 ° C./min under a pressure of 0.7 MPa in an autoclave, and heat-cured at 130 ° C. for 90 minutes.
- a fiber reinforced plastic panel was obtained.
- a highly smooth mirror surface was obtained by mechanically polishing the cross section of the obtained carbon fiber reinforced plastic.
- the obtained smooth section was subjected to electron staining by exposing it to OsO 4 vapor for 16 hours, and further subjected to conductive treatment. Then, a scanning electron microscope (JSM-7610F, manufactured by JEOL Ltd. ) was used to observe a backscattered electron image of a cross section subjected to electron dyeing, and it was confirmed that a phase separation structure similar to that of the resin plate 1 was formed inside the matrix resin between the carbon fibers.
- JSM-7610F manufactured by JEOL Ltd.
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Abstract
Description
本願は、2021年3月15日に、日本に出願された特願2021-041609号に基づき優先権を主張し、その内容をここに援用する。
[1]炭素繊維とマトリクス樹脂とを含むプリプレグであって、前記マトリクス樹脂は、エポキシ樹脂、硬化剤、分子量が200以上である単官能(メタ)アクリレートモノマー、および多官能(メタ)アクリレートモノマーを含有する、プリプレグ。
[2]前記硬化剤が、ジシアンジアミド、ウレア類、イミダゾール類、芳香族アミン類の中から選ばれる少なくとも1種である成分(b1)を含む、[1]に記載のプリプレグ。
[3]前記硬化剤が、ジシアンジアミドを含む、[2]に記載のプリプレグ。
[4]前記硬化剤が少なくとも1種のラジカル重合開始剤である成分(b2)を含む、[1]~[3]のいずれか1項に記載のプリプレグ。
[5]前記成分(b2)が、ジアシルパーオキサイド、アルキルパーオキシエステル、パーオキシジカーボネート、パーオキシケタール、ジアルキルパーオキサイド、及びハイドロパーオキサイドからなる群から選ばれる少なくとも1種のパーオキサイド系化合物類を含む、[4]に記載のプリプレグ。
[6]前記プリプレグ中の前記多官能(メタ)アクリレートモノマーの含有率が、前記分子量が200以上である単官能(メタ)アクリレートモノマーの含有率より大きい、[1]~[5]のいずれか1項に記載のプリプレグ。
[7]前記分子量が200以上である単官能(メタ)アクリレートモノマーが、イソボルニル(メタ)アクリレート、テトラヒドロフルフリル(メタ)アクリレート、フェノキシエチル(メタ)アクリレート、ジシクロペンテニル(メタ)アクリレート、およびジシクロペンタニル(メタ)アクリレートから選ばれる少なくとも1種のモノマーを含む、[1]~[6]のいずれか1項に記載のプリプレグ。
[8]前記多官能(メタ)アクリレートモノマーが、下記構造式(1)のアクリレートモノマーを含む、[1]~[7]のいずれか1項に記載のプリプレグ。
[9]前記分子量が200以上である単官能(メタ)アクリレートモノマー、および多官能(メタ)アクリレートモノマーを全エポキシ樹脂100質量部に対して、5~45質量部含む、[1]~[8]のいずれか1項に記載のプリプレグ。
[10]強化繊維とマトリクス樹脂とを含むプリプレグであって、マトリクス樹脂がエポキシ樹脂を含み、前記マトリクス樹脂を下記硬化条件で硬化したときの硬化物がドメインXおよびドメインYからなる海島相分離構造を有し、前記ドメインXは下記測定法により測定されるサイズRが400nm以下の島部分を構成し、前記ドメインX間距離Lの前記サイズRに対する比L/Rが1.1以上である、プリプレグ。
硬化条件;
マトリクス樹脂を2枚のガラス板の間に注入して厚さ2mmの板状に成形し、2℃/分でオーブン雰囲気温度130℃まで昇温し、130℃で90分間保持する。
測定条件;
前処理として、硬化物の断面から、ウルトラミクロトームを用いて60~90nm厚みの切片を切り出し、得られた切片をRuO4蒸気に7分間暴露することで電子染色を施す。または、あらかじめOsO4蒸気に16時間暴露した硬化物の断面から、ウルトラミクロトームを用いて60~90nm厚みの切片を切り出す。透過型電子顕微鏡(TEM)を用いて、加速電圧を80kVに設定した状態で、前処理によって電子染色された切片の相分離構造を観察し、TEM画像を取得する。得られたTEM画像を、画像解析ソフトウェアを用いて、スムージングとバックグラウンド減算した後、2値化した画像の境界を検出する。サイズRは、ドメインXの最大フェレ径の中央値とする。ドメインX間距離Lは、ドメインXの重心から最近隣の別のドメインXの重心までの距離の中央値とする。
[11]前記比L/Rが100以下である、[10]に記載のプリプレグ。
[12]前記サイズRが1nm以上である、[10]又は[11]に記載のプリプレグ。
[13]前記マトリクス樹脂が下記成分(A)および(B)を含む、[10]~[12]のいずれか1項に記載のプリプレグ。
成分(A):(メタ)アクリレートモノマー
成分(B):硬化剤。
[14]前記成分(A)が単官能の(メタ)アクリレートモノマーを含む、[13]に記載のプリプレグ。
[15]前記成分(A)が多官能の(メタ)アクリレートモノマーを含む、[13]または[14]に記載のプリプレグ。
[16]前記ドメインXが(メタ)アクリレートモノマーの重合体を含む、[10]~[15]のいずれか1項に記載のプリプレグ。
[17]前記ドメインYがエポキシ樹脂の硬化物を含む、[10]~[16]のいずれか1項に記載のプリプレグ。
[18]前記成分(B)がジシアンジアミド、ウレア類、イミダゾール類、芳香族アミン類の中から選ばれる少なくとも1種である成分(b1)を含む、[13]~[17]のいずれか1項に記載のプリプレグ。
[19]前記成分(b1)をマトリクス樹脂に含まれる全エポキシ樹脂100質量部に対し、1~15質量部含む、[18]に記載のプリプレグ。
[20]前記成分(B)が少なくとも1種のラジカル重合開始剤である成分(b2)を含む、[13]~[19]のいずれか1項に記載のプリプレグ。
[21]前記成分(b2)をマトリクス樹脂全体100質量部に対して、0.1~5質量部含む、[20]に記載のプリプレグ。
[22]前記成分(b2)が、10時間半減期温度が70℃以上である化合物を含む、[20]または[21]に記載のプリプレグ。
[23]前記成分(b2)が、ジアシルパーオキサイド、アルキルパーオキシエステル、パーオキシジカーボネート、パーオキシケタール、ジアルキルパーオキサイド、及びハイドロパーオキサイドからなる群から選ばれる少なくとも1種のパーオキサイド系化合物類を含む、[20]~[22]のいずれか1項に記載のプリプレグ。
[24]前記成分(A)を全エポキシ樹脂100質量部に対して、5~45質量部含む、[10]~[23]のいずれか1項に記載のプリプレグ。
[25]前記強化繊維が炭素繊維を含む、[10]~[24]のいずれか1項に記載のプリプレグ。
[26][10]~[25]のいずれか1項に記載のプリプレグが硬化した繊維強化プラスチック。
[27]強化繊維とマトリクス樹脂とからなる繊維強化プラスチックであって、前記マトリクス樹脂がドメインXおよびドメインYからなる海島相分離構造を有し、ドメインXは下記測定法により測定されるサイズRが400nm以下の島部分を構成し、ドメインX間距離Lの前記サイズRに対する比L/Rが1.1以上である、繊維強化プラスチック。
測定条件;
前処理として、繊維強化プラスチックの断面を機械研磨し、鏡面を得る。得られた平滑断面をRuO4蒸気やOsO4蒸気に暴露することで電子染色を施す。導電処理を施した後に、加速電圧を5kVに設定した走査型電子顕微鏡(SEM)を用いて、電子染色を施した断面の反射電子像を取得し、相分離構造を観察する。得られた反射電子像を、画像解析ソフトウェアを用いて、スムージングとバックグラウンド減算した後、2値化した画像の境界を検出する。サイズRは、ドメインXの最大フェレ径の中央値とする。ドメインX間距離Lは、ドメインXの重心から最近隣の別のドメインXの重心までの距離の中央値とする。
[28]前記比L/Rが100以下である、[27]に記載の繊維強化プラスチック。
[29]前記サイズRが1nm以上である、[27]または[28]に記載の繊維強化プラスチック。
[30]前記ドメインXが(メタ)アクリレートモノマーの重合体を含む、[27]~[29]のいずれか1項に記載の繊維強化プラスチック。
[31]前記ドメインYがエポキシ樹脂の硬化物を含む、[27]~[30]のいずれか1項に記載の繊維強化プラスチック。
[32]前記強化繊維が炭素繊維を含む、[27]~[31]のいずれか1項に記載の繊維強化プラスチック。
[34]前記マトリクス樹脂を下記硬化条件で硬化したときの硬化物がドメインXおよびドメインYからなる海島相分離構造を有し、前記ドメインXは下記測定法により測定されるサイズRが400nm以下の島部分を構成し、前記ドメインX間距離Lの前記サイズRに対する比L/Rが、1.1以上100以下が好ましく、1.1以上50以下がより好ましく、1.25以上10以下がさらに好ましく、1.5以上5.0以下が特に好ましい、[1]~[25]のいずれか1項に記載のプリプレグ。
[35]前記マトリクス樹脂が、エポキシ樹脂、及び(メタ)アクリレートモノマーを含有し、前記(メタ)アクリレートモノマーの含有量は、プリプレグ中の全エポキシ樹脂100質量部に対して5質量部以上45質量部以下であることが好ましく、10質量部以上40質量部以下であることがより好ましい、[1]~[25]、及び[34]のいずれか1項に記載のプリプレグ。
[36]前記マトリクス樹脂が、エポキシ樹脂、及びエポキシ樹脂を硬化させる成分(b1)を含有し、前記成分(b1)の含有量は、マトリクス樹脂に含まれる全エポキシ樹脂100質量部に対し、1質量部以上15質量部以下であることが好ましく、2質量部以上12質量部以下であることがより好ましい、[1]~[25]、及び[34]~[35]のいずれか1項に記載のプリプレグ。
[37]前記マトリクス樹脂が、エポキシ樹脂、及びジシアンジアミドを含有し、ジシアンジアミドの含有量は、マトリクス樹脂に含まれる全エポキシ樹脂100質量部に対し、1~15質量部が好ましく、2~10質量部がより好ましい、[1]~[25]、及び[34]~[36]のいずれか1項に記載のプリプレグ。
[38]前記マトリクス樹脂が、(メタ)アクリレートモノマー、及び前記(メタ)アクリレートモノマーを硬化させる成分(b2)を含有し、成分(b2)の含有量は、マトリクス樹脂全体100質量部に対し、0.1質量部以上含有することが好ましく、0.2質量部以上含有することがより好ましい、[1]~[25]、及び[34]~[37]のいずれか1項に記載のプリプレグ。
[39]前記マトリクス樹脂が、液状のエポキシ樹脂を含有し、前記エポキシ樹脂液状のエポキシ樹脂の粘度は、25℃において0.1Pa・s以上500Pa・s以下であることが好ましく、0.1Pa・s以上300Pa・s以下であることがより好ましい、[1]~[25]、及び[34]~[38]のいずれか1項に記載のプリプレグ。
[40]前記マトリクス樹脂が、エポキシ樹脂を含有し、前記エポキシ樹脂の含有量は、マトリクス樹脂100質量部に対して70質量部以上100質量部未満が好ましく、80質量部以上95質量部以下がより好ましい、[1]~[25]、及び[34]~[39]のいずれか1項に記載のプリプレグ。
[41]前記マトリクス樹脂が、液状のエポキシ樹脂を含有し、前記液状のエポキシ樹脂の含有量は、エポキシ樹脂組成物に含まれる全エポキシ樹脂100質量部に対して20質量部以上80質量部以下であることが好ましく、20質量部以上75質量部以下であることがより好ましく、25質量部以上70質量部以下であることがさらに好ましく、28質量部以上50質量部以下であることが特に好ましい、[1]~[25]、及び[34]~[40]のいずれか1項に記載のプリプレグ。
[43]前記マトリクス樹脂が、固形のエポキシ樹脂を含有し、前記固形のエポキシ樹脂の含有量は、エポキシ樹脂組成物に含まれる全エポキシ樹脂100質量部に対して10質量部以上80質量部以下であることが好ましく、13質量部以上70質量部以下であることがより好ましく、15質量部以上60質量部以下であることがさらに好ましい、[1]~[25]、及び[34]~[42]のいずれか1項に記載のプリプレグ。
[44]前記マトリクス樹脂が、エポキシ樹脂、及び熱可塑性樹脂を含有し、前記熱可塑性樹脂の含有量は、マトリクス樹脂に含まれる全エポキシ樹脂100質量部に対して1質量部以上30質量部以下含むことが好ましく、2質量部以上10質量部以下含むことがより好ましく、3質量部以上6質量部以下含むことがさらに好ましい、[1]~[25]、及び[34]~[43]のいずれか1項に記載のプリプレグ。
[45]前記マトリクス樹脂が、液状のエポキシ樹脂、及び固形のエポキシ樹脂を含有し、[液状のエポキシ樹脂の含有量]/[固体のエポキシ樹脂の含有量]で表される質量比は、10/90~50/90が好ましく、20/80~40/60がより好ましく、25/75~35/65がさらに好ましい、[1]~[25]、及び[34]~[44]のいずれか1項に記載のプリプレグ。
[46]前記マトリクス樹脂が、エポキシ樹脂、及び(メタ)アクリレートモノマーを含有し、[エポキシ樹脂の含有量]/[(メタ)アクリレートモノマーの含有量]で表される質量比は、100/75~100/5が好ましく、100/50~100/10がより好ましく、100/30~100/20がさらに好ましい、[1]~[25]、及び[34]~[45]のいずれか1項に記載のプリプレグ。
[47]前記マトリクス樹脂から厚さ2mmの樹脂板を形成したときの、前記樹脂板の曲げ強度は、170MPa以上200MPa以下が好ましく、175MPa以上190MPa以下がより好ましい、[1]~[25]、及び[34]~[46]のいずれか1項に記載のプリプレグ。
[48]前記マトリクス樹脂から厚さ2mmの樹脂板を形成したときの、前記樹脂板の曲げ弾性率は、3.60GPa以上10.0GPa以下が好ましく、3.65GPa以上5.0GPa以下がより好ましい、[1]~[25]、及び[34]~[47]のいずれか1項に記載のプリプレグ。
[49]前記マトリクス樹脂から厚さ2mmの樹脂板を形成したときの、前記樹脂板の最大応力ひずみは、0%超7.0%以下が好ましく、0%超6.5%以下がより好ましい、[1]~[25]、及び[34]~[48]のいずれか1項に記載のプリプレグ。
[50]前記マトリクス樹脂から厚さ2mmの樹脂板を形成したときの、前記樹脂板の破断ひずみは、8.0%以上20.0%以下が好ましく、8.5%以上15%以下がより好ましい、[1]~[25]、及び[34]~[49]のいずれか1項に記載のプリプレグ。
[51]前記マトリクス樹脂が、(メタ)アクリレートモノマーを含有し、前記(メタ)アクリレートモノマーが、3官能(メタ)アクリレートモノマーであることが好ましく;トリス(2-ヒドロキシエチル)イソシアヌレートと(メタ)アクリル酸と反応させることによりエステル化して得られる3官能(メタ)アクリレートモノマーであることがより好ましく;下記式(2)で表される3官能(メタ)アクリレートモノマーであることがさらに好ましい、[1]~[25]、及び[34]~[50]のいずれか1項に記載のプリプレグ。
[1a]エポキシ樹脂、硬化剤、分子量が200以上である単官能(メタ)アクリレートモノマー、および多官能(メタ)アクリレートモノマーを含有する樹脂組成物。
[2a]前記硬化剤が、ジシアンジアミド、ウレア類、イミダゾール類、芳香族アミン類の中から選ばれる少なくとも1種である成分(b1)を含む、[1a]に記載の樹脂組成物。
[3a]前記硬化剤が、ジシアンジアミドを含む、[2a]に記載の樹脂組成物。
[4a]前記硬化剤がパーオキサイド系化合物類を含む、[1a]~[3a]のいずれか1項に記載の樹脂組成物。
[5a]前記樹脂組成物中の前記多官能(メタ)アクリレートモノマーの含有率が、前記分子量が200以上である単官能(メタ)アクリレートモノマーの含有率より大きい、[1a]~[4a]のいずれか1項に記載の樹脂組成物。
[6a]前記分子量が200以上である単官能(メタ)アクリレートモノマーが、イソボルニル(メタ)アクリレート、テトラヒドロフルフリル(メタ)アクリレート、フェノキシエチル(メタ)アクリレート、ジシクロペンテニル(メタ)アクリレート、およびジシクロペンタニル(メタ)アクリレートから選ばれる少なくとも1種のモノマーを含む、[1a]~[5a]のいずれか1項に記載の樹脂組成物。
[7a]前記多官能(メタ)アクリレートモノマーが、下記構造式(1)のアクリレートモノマーを含む、[1a]~[6a]のいずれか1項に記載の樹脂組成物。
[8a]前記分子量が200以上である単官能(メタ)アクリレートモノマー、および多官能(メタ)アクリレートモノマーを全エポキシ樹脂100質量部に対して、5~45質量部含む、[1a]~[7a]のいずれか1項に記載の樹脂組成物。
[9a]前記樹脂組成物を下記硬化条件で硬化したときの硬化物がドメインXおよびドメインYからなる海島相分離構造を有し、前記ドメインXは下記測定法により測定されるサイズRが400nm以下の島部分を構成し、前記ドメインX間距離Lの前記サイズRに対する比L/Rが1.1以上である、[1a]~[8a]のいずれか1項に樹脂組成物。
硬化条件;
マトリクス樹脂を2枚のガラス板の間に注入して厚さ2mmの板状に成形し、2℃/分でオーブン雰囲気温度130℃まで昇温し、130℃で90分間保持する。
測定条件;
前処理として、硬化物の断面から、ウルトラミクロトームを用いて60~90nm厚みの切片を切り出し、得られた切片をRuO4蒸気に7分間暴露することで電子染色を施す。または、あらかじめOsO4蒸気に16時間暴露した硬化物の断面から、ウルトラミクロトームを用いて60~90nm厚みの切片を切り出す。透過型電子顕微鏡(TEM)を用いて、加速電圧を80kVに設定した状態で、前処理によって電子染色された切片の相分離構造を観察し、TEM画像を取得する。得られたTEM画像を、画像解析ソフトウェアを用いて、スムージングとバックグラウンド減算した後、2値化した画像の境界を検出する。サイズRは、ドメインXの最大フェレ径の中央値とする。ドメインX間距離Lは、ドメインXの重心から最近隣の別のドメインXの重心までの距離の中央値とする。
[10a]エポキシ樹脂を含む樹脂組成物であって、前記樹脂組成物を[9a]に記載の硬化条件で硬化したときの硬化物がドメインXおよびドメインYからなる海島相分離構造を有し、[9a]に記載の測定法により測定されるサイズRが400nm以下の島部分を構成し、前記ドメインX間距離Lの前記サイズRに対する比L/Rが1.1以上である、樹脂組成物。
[11a]前記比L/Rが100以下である、[10a]に記載の樹脂組成物。
[12a]前記サイズRが1nm以上である、[10a]又は[11a]に記載の樹脂組成物。
[13a]前記マトリクス樹脂が下記成分(A)および(B)を含む、[10a]~[12a]のいずれか1項に記載の樹脂組成物。
成分(A):(メタ)アクリレートモノマー
成分(B):硬化剤。
[14a]前記成分(A)が単官能の(メタ)アクリレートモノマーを含む、[13a]に記載の樹脂組成物。
[15a]前記成分(A)が多官能の(メタ)アクリレートモノマーを含む、[13a]または[14a]に記載の樹脂組成物。
[16a]前記ドメインXが(メタ)アクリレートモノマーの重合体を含む、[10a]~[15a]のいずれか1項に記載の樹脂組成物。
[17a]前記ドメインYがエポキシ樹脂の硬化物を含む、[10a]~[16a]のいずれか1項に記載の樹脂組成物。
[18a]前記成分(B)がジシアンジアミド、ウレア類、イミダゾール類、芳香族アミン類の中から選ばれる少なくとも1種である成分(b1)を含む、[13a]~[17a]のいずれか1項に記載の樹脂組成物。
[19a]前記成分(b1)をマトリクス樹脂に含まれる全エポキシ樹脂100質量部に対し、1~15質量部含む、[18a]に記載の樹脂組成物。
[20a]前記成分(B)がパーオキサイド系化合物類を含む、[13a]~[19a]のいずれか1項に記載の樹脂組成物。
[21a]前記成分(A)を全エポキシ樹脂100質量部に対して、5~45質量部含む、[10a]~[20a]のいずれか1項に記載の樹脂組成物。
[22a][1a]~[21a]のいずれか1項に記載の樹脂組成物からなるフィルム。
プリプレグの一形態は、炭素繊維とマトリクス樹脂とを含む。マトリクス樹脂はエポキシ樹脂を含み、マトリクス樹脂を下記硬化条件で硬化したときの硬化物がドメインXおよびドメインYからなる海島相分離構造を有し、ドメインXは下記測定法により測定されるサイズRが400nm以下の島部分を構成し、ドメインX間距離Lの前記サイズRに対する比L/Rが1.1以上である。弾性率と靭性はトレードオフの関係にあるが、かかる相分離構造を有することにより、弾性率に優れたドメインと靭性に優れたドメインを共存させることで弾性率と靭性の両立が可能となる。マトリクス樹脂は、下記成分(A)および/または(B)を含んでいてもよい。
成分(A):(メタ)アクリレートモノマー
成分(B):硬化剤
硬化条件;
マトリクス樹脂を2枚のガラス板の間に注入して厚さ2mmの板状に成形し、2℃/分でオーブン雰囲気温度130℃まで昇温し、130℃で90分間保持する。
マトリクス樹脂の硬化には、プリプレグからマトリクス樹脂のみを取り出したものまたは、含浸させる前のマトリクス樹脂を用いることが好ましい。その他、一部を切り抜いたプリプレグを積層し、先の条件で積層体全体を硬化させた後、切り抜いた部分を埋めるように流動して硬化したマトリクス樹脂から切片を得てもよい。または、プリプレグを加圧しながら加熱硬化した際に、炭素繊維基材部分から染み出したマトリクス樹脂の硬化物から切片を得てもよい。
測定条件;
前処理として、硬化物の断面から、ウルトラミクロトームを用いて60~90nm厚みの切片を切り出し、得られた切片をRuO4蒸気に7分間暴露することで電子染色を施す。または、あらかじめOsO4蒸気に16時間暴露した硬化物の断面から、ウルトラミクロトームを用いて60~90nm厚みの切片を切り出すことで電子染色済みの切片を得る。硬化物の断面は500μm×300μmの大きさとすることができる。透過型電子顕微鏡(TEM)を用いて、加速電圧を80kVに設定した状態で、電子染色を施した切片の相分離構造を観察し、TEM画像を取得する。得られたTEM画像を、画像解析ソフトウェアを用いて、スムージングとバックグラウンド減算した後、2値化した画像の境界を検出する。サイズRは、ドメインXの最大フェレ径の中央値とする。ドメインX間距離Lは、ドメインXの重心から最近隣の別のドメインXの重心までの距離の中央値とする。
硬化物を構成する成分のうち、異なる成分を主成分とする相が、2相以上存在することで相分離構造を形成できる。硬化前に各成分が均一に相溶している状態から、硬化過程において2相以上に相分離してもよい。異なる成分を主成分とする相の最大フェレ径が1nm未満の相分離構造である場合は、相溶状態とする。
(1a)マトリクス樹脂に(メタ)アクリレートモノマーを含有させ、その配合割合を大きくする。
(2a)マトリクス樹脂に(メタ)アクリレートモノマーを含有させ、(メタ)アクリレートモノマーのうちの多官能体の割合を小さくする。
(3a)マトリクス樹脂に分子量の異なるエポキシ樹脂を2種以上含有させ、エポキシ樹脂のうち低分子量成分の割合を大きくする。
(1b)マトリクス樹脂に(メタ)アクリレートモノマーを含有させ、その配合割合を小さくする。
(2b)マトリクス樹脂に(メタ)アクリレートモノマーを含有させ、(メタ)アクリレートモノマーのうちの多官能体の割合を大きくする。
(3b)マトリクス樹脂に分子量の異なるエポキシ樹脂を2種以上含有させ、エポキシ樹脂のうち低分子量成分の割合を小さくする。
成分(A)は、(メタ)アクリレートモノマーである。成分(A)は、硬化物の強度や弾性率、靱性の向上に寄与する。(メタ)アクリレートモノマーとしては、単官能(メタ)アクリレートモノマーや2官能以上の(メタ)アクリレートモノマー(多官能(メタ)アクリレートモノマーと称することがある)が挙げられる。これらの中から1種を単独で用いてもよく、2種以上を併用してもよい。硬化物の強度や弾性率と靭性のバランスを取るために、また、成形時の寸法安定性の観点から単官能(メタ)アクリレートモノマー及び2~4官能の(メタ)アクリレートモノマーを併用することが好ましい。プリプレグに用いる場合の含浸温度を高めることができることから、(メタ)アクリレートモノマーの分子量は200以上が好ましく、分子量は250以上がより好ましい。マトリクス樹脂に均一に分散させる観点から、分子量は2000以下が好ましく、分子量は1500以下がより好ましい。多官能(メタ)アクリレートモノマーとしては、硬化物の靭性の観点から、下記式(1)で表される構造式を有するモノマーが好ましい。
成分(C):(メタ)アクリレートオリゴマー
(メタ)アクリレートオリゴマーとしては、1,3-および1,4-ジイソシアナトシクロヘキサン、3-イソシアナトメチル-3,5,5-トリメチルシクロヘキシルイソシアネート、4,4′-メチレンジシクロヘキシルジイソシアネート、2,4-メチレンジシクロヘキシルジイソシアネート、2,2′-メチレンジシクロヘキシルジイソシアネート、トリレンジイソシアネート、ジフェニルメタンジイソシアネート、ヘキサメチレンジイソシアネート等のポリイソシアネートの少なくとも1種に、ヒドロキシエチル(メタ)アクリレート、ヒドロキシプロピル(メタ)アクリレ-ト、ペンタエリスリトールトリアクリレート等を直接付加して得られるウレタン(メタ)アクリレート類等が挙げられる。これらは一種単独で又は二種以上を併用して用いることができる。その他、酢酸ビニル、酪酸ビニル、N-ビニルホルムアミド、N-ビニルアセトアミド、N-ビニル-2-ピロリドン、N-ビニルカプロラクタム、アジピン酸ジビニル等のビニルエステルモノマー類;エチルビニルエーテル、フェニルビニルエーテル等のビニルエーテル類;アクリルアミド、N,N-ジメチルアクリルアミド、N,N-ジメチルメタクリルアミド、N-メチロールアクリルアミド、N-メトキシメチルアクリルアミド、N-ブトキシメチルアクリルアミド、N-t-ブチルアクリルアミド、N-ベンジル(メタ)アクリルアミド、N-フェニル(メタ)アクリルアミド、N-(4-ヒドロキシベンジル)(メタ)アクリルアミド、N-(4-ヒドロキシフェニル)(メタ)アクリルアミド、アクリロイルモルホリン、ヒドロキシエチルアクリルアミド、メチレンビスアクリルアミド等のアクリルアミド類を用いることもできる。
成分(B)は、硬化剤である。エポキシ樹脂を硬化させる成分(b1)、または成分(A)を硬化させる(b2)を含むことが好ましく、併用することがより好ましい。成分(b1)としては、ジシアンジアミド、ウレア類、イミダゾール類、芳香族アミン類、その他アミン系硬化剤、酸無水物、塩化ホウ素アミン錯体等を用いることができるが、特にジシアンジアミド、ウレア類、イミダゾール類、芳香族アミン類の中から選ばれる少なくとも1種の硬化剤を用いることが好ましい。
エポキシ樹脂としては、ビスフェノールA型エポキシ樹脂、ビスフェノールF型エポキシ樹脂、オキサゾリドン環骨格を有するエポキシ樹脂、ノボラック型エポキシ樹脂、グリシジルアミン型エポキシ樹脂、ヒドロフタル酸型エポキシ樹脂、ビスフェノールS型エポキシ樹脂、レゾルシン型エポキシ樹脂、ヒドロキノン型エポキシ樹脂、ビスフェノキシエタノールフルオレン型エポキシ樹脂、ビスフェノールフルオレン型エポキシ樹脂、ビスクレゾールフルオレン型エポキシ樹脂等が挙げられる。これらの中でも、ビスフェノールA型エポキシ樹脂、ビスフェノールF型エポキシ樹脂、オキサゾリドン環骨格を有するエポキシ樹脂、ノボラック型エポキシ樹脂、グリシジルアミン型エポキシ樹脂から選ばれる1種以上のエポキシ樹脂が好ましい。後述する液状および固形のエポキシ樹脂を併用することができる。エポキシ樹脂を複数種組み合わせることで、優れた取り扱い性を有するプリプレグ、および機械特性や耐熱性に優れる繊維強化プラスチックを得ることができる。
マトリクス樹脂組成物には熱可塑性樹脂を用いることができる。熱可塑性樹脂としては、例えばポリアミド、ポリエステル、ポリカーボネート、ポリエーテルスルホン、ポリフェニレンエーテル、ポリフェニレンスルフィド、ポリエーテルエーテルケトン、ポリエーテルケトン、ポリイミド、ポリテトラフルオロエチレン、ポリエーテル、ポリオレフィン、液晶ポリマー、ポリアリレート、ポリスルフォン、ポリアクリロニトリルスチレン、ポリスチレン、ポリアクリロニトリル、ポリメチルメタクリレート、ABS(アクリロニトリル・ブタジエン・スチレン共重合体)、AES(アクリロニトリル・エチレンプロピレンゴム・スチレン共重合体)、ASA(アクリロニトリル・アクリルゴム・スチレン共重合体)、ポリ塩化ビニル、ポリビニルホルマール樹脂、フェノキシ樹脂、ブロックポリマーなどが挙げられるが、これらに限定されない。これらの中でも、強化繊維への樹脂フロー制御性に優れることから、ポリエーテルスルホン、ポリビニルホルマール樹脂、フェノキシ樹脂がより好ましい。配合量が少量でも樹脂フロー制御性に優れることからポリビニルホルマール樹脂がさらに好ましい。熱可塑性樹脂は、1種を単独で用いてもよく、2種以上を組み合わせて用いてもよい。
マトリクス樹脂組成物は、例えば、上述した各成分を混合することにより得られる。マトリクス樹脂組成物は熱硬化性樹脂組成物であることが好ましい。各成分の混合方法としては、三本ロールミル、プラネタリミキサー、ニーダー、ホモジナイザー、ホモディスパー等の混合機を用いる方法が挙げられる。マトリクス樹脂組成物は、例えば、後述するように、強化繊維基材に含浸させてプリプレグの製造に用いることができる。他にも、マトリクス樹脂組成物を離型紙等に塗布して硬化することで、マトリクス樹脂組成物のフィルムを得ることができる。また、30℃におけるマトリクス樹脂組成物の粘度は、100~1,000,000Pa・sとすることができる。
強化繊維は、プリプレグ中で強化繊維基材(強化繊維の集合体)として存在させることができ、シートであることが好ましい。強化繊維は、強化繊維が単一方向に配列したものであってもよく、ランダム方向に配列したものであってもよい。強化繊維基材の形態としては強化繊維の織物、強化繊維の不織布、強化繊維の長繊維が一方向に引き揃えられたシートなどが挙げられる。強化繊維は、比強度や比弾性率が高い繊維強化複合材料を成形することができることからは、連続繊維が単一方向に引き揃えられた強化繊維の束からなるシートであることが好ましく、取り扱いが容易であるという観点からは、強化繊維の織物であることが好ましい。
プリプレグは、例えば、マトリクス樹脂組成物を強化繊維基材に含浸させることで得られる。マトリクス樹脂組成物を強化繊維基材に含浸させる方法としては、例えばエポキシ樹脂組成物をメチルエチルケトン、メタノール等の溶媒に溶解して低粘度化してから、強化繊維基材に含浸させるウェット法;マトリクス樹脂組成物を加熱により低粘度化してから、強化繊維基材に含浸させるホットメルト法(ドライ法)などが挙げられるが、これらに限定されない。含浸温度は、マトリクス樹脂の粘度に合わせて設定するものであるが、マトリクス樹脂の硬化反応が開始せず、マトリクス樹脂を強化繊維に十分に含浸させる必要がある観点から、40~90℃が好ましい、50~80℃がより好ましい。
繊維強化プラスチックは、プリプレグを硬化することで得られる。すなわち、繊維強化プラスチックは、プリプレグに含まれるマトリクス樹脂組成物の硬化物と、強化繊維とを含む。2枚以上のプリプレグが積層された積層体の硬化物とすることができる。例えば、前述のプリプレグを2枚以上積層した後、得られた積層体に圧力を付与しながら、加熱硬化させる方法等により成形することで繊維強化プラスチックからなる成形品が得られる。先に説明したプリプレグ以外の熱可塑性樹脂組成物と強化繊維からなるプリプレグやエポキシ樹脂組成物と強化繊維からなるプリプレグを積層してもよい。
<エポキシ樹脂>
jER807:液状ビスフェノールF型エポキシ樹脂(三菱ケミカル株式会社製、製品名「jER 807」)。
jER828:液状ビスフェノールA型エポキシ樹脂(三菱ケミカル株式会社製、製品名「jER 828」)。
jER4007P:固形ビスフェノールF型エポキシ樹脂(三菱ケミカル株式会社製、製品名「jER 4007P」)。
jER1004:固形ビスフェノールA型エポキシ樹脂(三菱ケミカル株式会社製、製品名「jER 1004」)。
YD-952:オキサゾリドン環骨格を有する固形エポキシ樹脂(新日鐵住金株式会社製、製品名「エポトート YD-952」)。
MY0600:トリグリシジル-m-アミノフェノール(ハンツマン・ジャパン 株式会社製、製品名「ARALDITE MY 0600」)。
<成分(A)>
A-9300S:トリス-(2-アクリロキシエチル)イソシアヌレート(3官能、新中村化学工業株式会社製、製品名「NKエステル A-9300S」)。
IBXA:イソボルニルアクリレート(単官能、大阪有機化学工業株式会社製、製品名「IBXA」)。
M-315:イソシアヌル酸EO変性ジ及びトリアクリレート(3官能、東亞合成株式会社製、製品名「アロニックス M-315」)。
FA-310AH:フェノキシエチルアクリレート(単官能、日立化成株式会社製、製品名「FANCRYL FA-310AH」
<成分(b1)>
DICYANEX 1400F:ジシアンジアミド(活性水素当量21g/eq、エボニック・ジャパン株式会社製、製品名「DICYANEX 1400F」)。
DCMU-99:3-(3,4-ジクロロフェニル)-1,1-ジメチルウレア(保土谷化学工業社製、製品名「DCMU-99」)。
<成分(b2)>
パークミルD:ジクミルパーオキサイド(10時間半減期温度116.4℃、日油株式会社製、製品名「パークミルD」)。
<熱可塑性樹脂>
ビニレックE:ポリビニルホルマール樹脂(JNC株式会社製、製品名「ビニレックE」)。
ビニレックK:ポリビニルホルマール樹脂(JNC株式会社製、製品名「ビニレックK」)。
エポキシ樹脂としてjER807、jER4007P、YD-952、成分(A)としてA-9300S、IBXA、成分(b1)としてDICYANEX 1400FならびにDCMU-99、成分(b2)としてパークミルD、熱可塑性樹脂としてビニレックEを用い、以下のようにして樹脂組成物を調製した。
まず、表1に記載の組成に従い、成分(b1)(固形)とエポキシ樹脂のうち液状成分を、固形成分と液状成分の質量比が1:1となるよう容器に計量し、攪拌混合した。これを三本ロールミルにてさらに細かく混合し、硬化剤入りマスターバッチを得た。
続けて、表1に記載の組成の内、硬化剤入りマスターバッチで使用した以外のエポキシ樹脂と熱可塑性樹脂をフラスコに計量し、オイルバスを用いて150℃で加熱撹拌し、溶解混合した。その後65℃程度まで冷却したところで、前記硬化剤入りマスターバッチ、成分(A)、成分(b2)を加えて攪拌混合することにより未硬化の熱硬化性樹脂組成物を得た。
(比較例2)
表1に示す配合組成のように、エポキシ樹脂としてYD-952、および熱可塑性樹脂を使用せず、成分(A)としてM-315を使用した以外は、実験例1~4および比較例1と同様にして熱硬化性樹脂組成物を調製して、樹脂板を作製し、相分離構造の測定を行ったが相分離構造が確認されなかった。
(実験例5、比較例3)
エポキシ樹脂としてjER828、jER1004、MY0600、成分(b1)としてDICYANEX 1400FならびにDCMU-99、熱可塑性樹脂としてビニレックKを用い、以下のようにして樹脂組成物を調製した。
まず、表1に記載の組成に従い、成分(b1)(固形)とエポキシ樹脂のうち液状成分を、固形成分と液状成分の質量比が1:1となるよう容器に計量し、攪拌混合した。これを三本ロールミルにてさらに細かく混合し、硬化剤入りマスターバッチを得た。
続けて、表1に記載の組成の内、硬化剤入りマスターバッチで使用した以外のエポキシ樹脂と熱可塑性樹脂をフラスコに計量し、オイルバスを用いて150℃で加熱撹拌し、溶解混合した。その後65℃程度まで冷却したところで、前記硬化剤入りマスターバッチを加えて攪拌混合することにより未硬化の熱硬化性樹脂組成物を得た。
未硬化の熱硬化性樹脂組成物を、2枚のガラス板の間に注入して、板状に成形し、2℃/分で昇温し、オーブン雰囲気温度130℃で90分保持して加熱硬化させて、厚さ2mmの樹脂板を作製した。
上記「樹脂板の作製」で得られた厚さ2mmの樹脂板を、長さ60mm×幅8mmに加工して試験片とした。該試験片について、温度23℃、湿度50%RHの環境下、3点曲げ治具(圧子R=3.2mm、サポートR=3.2mm、サポート間距離(L)=32mm)を設置した万能試験機(INSTRON社製、「INSTRON 5965」)を用いて、クロスヘッドスピード2mm/分の条件で、樹脂板の曲げ強度、曲げ弾性率、最大応力ひずみ、破断ひずみを測定した。具体的には、上記測定条件で得られた応力-ひずみ曲線を用いて、曲げひずみ0.05~0.25%の区間で割線法により曲げ弾性率(単位:GPa)を算出した。また、上記測定条件で得られた応力-ひずみ曲線の、最大曲げ応力を曲げ強度(単位:MPa)、最大曲げ応力時の曲げひずみを最大応力ひずみ(単位:%)として得た。上記測定条件で試験片が破断した際の曲げひずみを破断ひずみ(単位:%)として得た。
上記「樹脂板の作製」で得られた厚さ2mmの樹脂板から、厚さ70nmの超薄切片を切り出し、得られた切片をRuO4蒸気に7分間暴露することで電子染色を施した。染色した超薄切片について、透過型電子顕微鏡(TEM)を用いて加速電圧を80kVに設定し相分離構造の観察を行なった。得られたTEM画像を、画像解析ソフトウェアImageJを用いて解析することで、ドメインXサイズRとドメインX間距離Lを測定した。ドメインXの最大フェレ径の中央値をドメインXサイズRとし、ドメインXの最近隣距離の中央値をドメインX間距離Lとした。ドメインXのサイズRは、各ドメインXに対して、対向する輪郭線に接した平行する接線間の最大距離(最大フェレ径)の中央値とする。また、ドメインX間距離Lは、あるドメインXの重心から最近隣の別のドメインXの重心までの距離(最近隣距離)の中央値とする。各中央値は150個以上のドメインXを解析し、そのサイズRおよび距離Lの分布から求めた。
TEM装置:JEM-1400Flash(日本電子社製)
条件 :加速電圧80kV
観察倍率 :3000倍
表1に示す配合組成のように、成分(A)としてFA-310AHを使用し、パークミルDの配合量を0.53質量部とした以外は、実験例1と同様にして熱硬化性樹脂組成物1を調製して、樹脂板1を作製し、相分離構造の測定を行ったところ、相分離構造が確認された。
コンマコーター(株式会社ヒラノテクシード製、「M-500」)を用いて、未硬化の熱硬化性樹脂組成物1を離型紙上に樹脂目付け27g/m2で塗工することで樹脂フィルムを作製した。この樹脂フィルム上に炭素繊維(TR 50S15L、三菱ケミカル株式会社製)を繊維目付125g/m2のシートとなるようにドラムワインド装置で巻き付けた。さらにもう1枚の樹脂フィルムをドラムワインド装置上で前記炭素繊維シート張り合わせた。2枚の樹脂フィルムに挟まれた炭素繊維シートを、温度70℃、圧力0.2MPa、送り速度3m/分の条件でフュージングプレス(アサヒ繊維機械工業(株)、JR-600LTSW)に通し、炭素繊維シートに未硬化の熱硬化性樹脂組成物1を含浸させることで、プリプレグ目付179g/m2、樹脂含有量30質量%の一方向プリプレグを得た。
得られたプレプレグを炭素繊維が同一方向となるように18枚積層し、オートクレーブで圧力0.7MPa下で、2℃/分で130℃まで昇温し、130℃で90分間加熱硬化させ、炭素繊維強化プラスチックパネルを得た。
得られた炭素繊維強化プラスチックの断面を機械研磨することで高平滑な鏡面を得た。得られた平滑断面をOsO4蒸気に16時間暴露することで電子染色を施し、さらに導電処理を施した後に、加速電圧を5kVに設定した走査型電子顕微鏡(JSM-7610F、日本電子株式会社製)を用いて、電子染色を施した断面の反射電子像を観察したところ、炭素繊維間のマトリクス樹脂内部に、樹脂板1と同様の相分離構造が形成されていることを確認した。
2 ドメインX
3 フェレ径
Claims (34)
- 炭素繊維とマトリクス樹脂とを含むプリプレグであって、前記マトリクス樹脂は、エポキシ樹脂、硬化剤、分子量が200以上である単官能(メタ)アクリレートモノマー、および多官能(メタ)アクリレートモノマーを含有する、プリプレグ。
- 前記硬化剤が、ジシアンジアミド、ウレア類、イミダゾール類、芳香族アミン類の中から選ばれる少なくとも1種である成分(b1)を含む、請求項1に記載のプリプレグ。
- 前記硬化剤が、ジシアンジアミドを含む、請求項2に記載のプリプレグ。
- 前記硬化剤が少なくとも1種のラジカル重合開始剤である成分(b2)を含む、請求項1~3のいずれか1項に記載のプリプレグ。
- 前記成分(b2)が、ジアシルパーオキサイド、アルキルパーオキシエステル、パーオキシジカーボネート、パーオキシケタール、ジアルキルパーオキサイド、及びハイドロパーオキサイドからなる群から選ばれる少なくとも1種のパーオキサイド系化合物類を含む、請求項4に記載のプリプレグ。
- 前記プリプレグ中の前記多官能(メタ)アクリレートモノマーの含有率が、前記分子量が200以上である単官能(メタ)アクリレートモノマーの含有率より大きい、請求項1~5のいずれか1項に記載のプリプレグ。
- 前記分子量が200以上である単官能(メタ)アクリレートモノマーが、イソボルニル(メタ)アクリレート、テトラヒドロフルフリル(メタ)アクリレート、フェノキシエチル(メタ)アクリレート、ジシクロペンテニル(メタ)アクリレート、およびジシクロペンタニル(メタ)アクリレートから選ばれる少なくとも1種のモノマーを含む、請求項1~6のいずれか1項に記載のプリプレグ。
- 前記分子量が200以上である単官能(メタ)アクリレートモノマー、および多官能(メタ)アクリレートモノマーを全エポキシ樹脂100質量部に対して、5~45質量部含む、請求項1~8のいずれか1項に記載のプリプレグ。
- 強化繊維とマトリクス樹脂とを含むプリプレグであって、マトリクス樹脂がエポキシ樹脂を含み、前記マトリクス樹脂を下記硬化条件で硬化したときの硬化物がドメインXおよびドメインYからなる海島相分離構造を有し、前記ドメインXは下記測定法により測定されるサイズRが400nm以下の島部分を構成し、前記ドメインX間距離Lの前記サイズRに対する比L/Rが1.1以上である、プリプレグ。
硬化条件;
マトリクス樹脂を2枚のガラス板の間に注入して厚さ2mmの板状に成形し、2℃/分でオーブン雰囲気温度130℃まで昇温し、130℃で90分間保持する。
測定条件;
前処理として、硬化物の断面から、ウルトラミクロトームを用いて60~90nm厚みの切片を切り出し、得られた切片をRuO4蒸気に7分間暴露することで電子染色を施す。または、あらかじめOsO4蒸気に16時間暴露した硬化物の断面から、ウルトラミクロトームを用いて60~90nm厚みの切片を切り出す。透過型電子顕微鏡(TEM)を用いて、加速電圧を80kVに設定した状態で、前処理によって電子染色された切片の相分離構造を観察し、TEM画像を取得する。得られたTEM画像を、画像解析ソフトウェアを用いて、スムージングとバックグラウンド減算した後、2値化した画像の境界を検出する。サイズRは、ドメインXの最大フェレ径の中央値とする。ドメインX間距離Lは、ドメインXの重心から最近隣の別のドメインXの重心までの距離の中央値とする。 - 前記比L/Rが100以下である、請求項10に記載のプリプレグ。
- 前記サイズRが1nm以上である、請求項10又は11に記載のプリプレグ。
- 前記マトリクス樹脂が下記成分(A)および(B)を含む、請求項10~12のいずれか1項に記載のプリプレグ。
成分(A):(メタ)アクリレートモノマー
成分(B):硬化剤。 - 前記成分(A)が単官能の(メタ)アクリレートモノマーを含む、請求項13に記載のプリプレグ。
- 前記成分(A)が多官能の(メタ)アクリレートモノマーを含む、請求項13または14に記載のプリプレグ。
- 前記ドメインXが(メタ)アクリレートモノマーの重合体を含む、請求項10~15のいずれか1項に記載のプリプレグ。
- 前記ドメインYがエポキシ樹脂の硬化物を含む、請求項10~16のいずれか1項に記載のプリプレグ。
- 前記成分(B)がジシアンジアミド、ウレア類、イミダゾール類、芳香族アミン類の中から選ばれる少なくとも1種である成分(b1)を含む、請求項13~17のいずれか1項に記載のプリプレグ。
- 前記成分(b1)をマトリクス樹脂に含まれる全エポキシ樹脂100質量部に対し、1~15質量部含む、請求項18に記載のプリプレグ。
- 前記成分(B)が少なくとも1種のラジカル重合開始剤である成分(b2)を含む、請求項13~19のいずれか1項に記載のプリプレグ。
- 前記成分(b2)をマトリクス樹脂全体100質量部に対して、0.1~5質量部含む、請求項20に記載のプリプレグ。
- 前記成分(b2)が、10時間半減期温度が70℃以上である化合物を含む、請求項20または21に記載のプリプレグ。
- 前記成分(b2)が、ジアシルパーオキサイド、アルキルパーオキシエステル、パーオキシジカーボネート、パーオキシケタール、ジアルキルパーオキサイド、及びハイドロパーオキサイドからなる群から選ばれる少なくとも1種のパーオキサイド系化合物類を含む、請求項20~22のいずれか1項に記載のプリプレグ。
- 前記成分(A)を全エポキシ樹脂100質量部に対して、5~45質量部含む、請求項10~23のいずれか1項に記載のプリプレグ。
- 前記強化繊維が炭素繊維を含む、請求項10~24のいずれか1項に記載のプリプレグ。
- 請求項10~25のいずれか1項に記載のプリプレグが硬化した繊維強化プラスチック。
- 強化繊維とマトリクス樹脂とからなる繊維強化プラスチックであって、前記マトリクス樹脂がドメインXおよびドメインYからなる海島相分離構造を有し、ドメインXは下記測定法により測定されるサイズRが400nm以下の島部分を構成し、ドメインX間距離Lの前記サイズRに対する比L/Rが1.1以上である、繊維強化プラスチック。
測定条件;
前処理として、繊維強化プラスチックの断面を機械研磨し、鏡面を得る。得られた平滑断面をRuO4蒸気やOsO4蒸気に暴露することで電子染色を施す。導電処理を施した後に、加速電圧を5kVに設定した走査型電子顕微鏡(SEM)を用いて、電子染色を施した断面の反射電子像を取得し、相分離構造を観察する。得られた反射電子像を、画像解析ソフトウェアを用いて、スムージングとバックグラウンド減算した後、2値化した画像の境界を検出する。サイズRは、ドメインXの最大フェレ径の中央値とする。ドメインX間距離Lは、ドメインXの重心から最近隣の別のドメインXの重心までの距離の中央値とする。 - 前記比L/Rが100以下である、請求項27に記載の繊維強化プラスチック。
- 前記サイズRが1nm以上である、請求項27または28に記載の繊維強化プラスチック。
- 前記ドメインXが(メタ)アクリレートモノマーの重合体を含む、請求項27~29のいずれか1項に記載の繊維強化プラスチック。
- 前記ドメインYがエポキシ樹脂の硬化物を含む、請求項27~30のいずれか1項に記載の繊維強化プラスチック。
- 前記強化繊維が炭素繊維を含む、請求項27~31のいずれか1項に記載の繊維強化プラスチック。
- 請求項1~9のいずれか1項に記載のプリプレグの製造方法であって、前記マトリクス樹脂からなるフィルムを重ねて加熱加圧することによって、前記炭素繊維を含む強化繊維基材が前記マトリクス樹脂で含浸される含浸工程を含むプリプレグの製造方法。
- 請求項10~25のいずれか1項に記載のプリプレグの製造方法であって、前記マトリクス樹脂からなるフィルムを重ねて加熱加圧することによって、前記強化繊維を含む強化繊維基材が前記マトリクス樹脂で含浸される含浸工程を含むプリプレグの製造方法。
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