Prepreg base material, layered base material, fiber-reinforced plastic, process for producing prepreg base material, and process for producing fiber-reinforced plastic
원문보기
A prepreg base material includes reinforcing fibers arranged substantially in one direction and a matrix resin between the reinforcing fibers, wherein the prepreg base material has substantially throughout its entire surface incisions, each incision extending in a direction substantially crossing th
A prepreg base material includes reinforcing fibers arranged substantially in one direction and a matrix resin between the reinforcing fibers, wherein the prepreg base material has substantially throughout its entire surface incisions, each incision extending in a direction substantially crossing the reinforcing fibers, wherein substantially all of the reinforcing fibers are divided by the incisions, a length (L) of each of reinforcing fiber segments formed by the incisions is in the range of 10 to 100 mm, a thickness H of the prepreg base material is in the range of 30 to 300 μm, and a fiber volume content by Vf of the reinforcing fibers is in the range of 45 to 65%.
대표청구항▼
1. A prepreg base material comprising: reinforcing fibers arranged substantially in one direction and a matrix resin between the reinforcing fibers, wherein the prepreg base material has substantially throughout its entire surface incisions, each incision extending in a direction substantially cross
1. A prepreg base material comprising: reinforcing fibers arranged substantially in one direction and a matrix resin between the reinforcing fibers, wherein the prepreg base material has substantially throughout its entire surface incisions, each incision extending in a direction substantially crossing the reinforcing fibers, wherein substantially all of the reinforcing fibers are divided by the incisions, a length L of each of reinforcing fiber segments formed by adjacent incisions is 10 to 100 mm, a thickness H of the prepreg base material is 30 to 150 μm, a fiber volume content Vf of the reinforcing fibers is 45 to 65%, an edge of one of the incisions and edges of the adjacent incisions overlap each other when the one incision and the adjacent incisions project in a direction of the fibers so that the one incision allows the reinforcing fibers between the adjacent incisions to cut into segments with a length shorter than the length L of the fiber segments cut by the adjacent incisions, wherein each of said incisions is in the form of a slit segment having a selected length, and when said slit segment is projected in the arranging direction of said reinforcing fibers, a projected length Ws of said slit segment in a perpendicular direction to the arranging direction of said reinforcing fibers is 1 to 10 mm, and wherein said slit segments are provided from top and bottom faces of said prepreg base material in a thickness direction thereof without penetrating said prepreg base material; a cut depth Hs of each of said slit segments is 0.4 to 0.6 times the thickness H of said prepreg base material; an interval La between any slit segment A in said top face and another slit segment B in said top face adjacent to said slit segment A in an orientation direction of said reinforcing fibers is 10 to 100 mm; the geometrical center of a slit segment C provided in said bottom face is located at a position where its distance measured from said slit segment A toward said slit segment B in the orientation direction of said reinforcing fibers is 0.4 to 0.6 times La; a part of said reinforcing fibers existing between said slit segment A and said slit segment B in said top face is cut by both said slit segment A in said top face and said slit segment C in said bottom face or both said slit segment B in said top face and said slit segment C in said bottom face; and geometrical shapes of slit segments in said top face and/or geometrical shapes of slit segments in said bottom face are the same as each other. 2. The prepreg base material according to claim 1, wherein each of said incisions is in the form of a slit segment having a selected length, and when said slit segment is projected in the arranging direction of said reinforcing fibers, a projected length Ws of said slit segment in the perpendicular direction to the arranging direction of said reinforcing fibers is in the range of 30 μm to 1.5 mm. 3. The prepreg base material according to claim 1, wherein said slit segments are aligned along at least three straight lines running in the same direction to form at least three slit rows and intervals between the adjacent said slit rows in the arranging direction of said reinforcing fibers are the same. 4. The prepreg base material according to claim 1, wherein said slit segments are arranged with an oblique angle to the perpendicular direction to the arranging direction of said reinforcing fibers. 5. The prepreg base material according to claim 1, wherein the absolute value of an oblique angle Θb of each of said incisions in a face of said prepreg base material from the arranging direction of said reinforcing fibers is in the range of 2 to 25°. 6. The prepreg base material according to claim 4, wherein each of said incisions is formed with a slit segment having a certain length, and wherein when said slit segment is projected in the arranging direction of said reinforcing fibers, the projected length Ws of said slit segment in a perpendicular direction to an arranging direction of said reinforcing fibers is in the range of 30 μm to 100 mm and adjacent said slit segments in the arranging direction of said reinforcing fibers have the same geometrical shape as each other. 7. The prepreg base material according to claim 6, wherein each of said incisions is linear. 8. The prepreg base material according to claim 2, wherein said slit segments are aligned along at least three straight lines running in the same direction to form at least three slit rows and intervals between the adjacent said slit rows in the arranging direction of said reinforcing fibers are the same. 9. The prepreg base material according to claim 2, wherein said slit segments are arranged with an oblique angle to the perpendicular direction to the arranging direction of said reinforcing fibers. 10. A prepreg base material comprising: reinforcing fibers arranged substantially in one direction and a matrix resin between the reinforcing fibers, wherein the prepreg base material has substantially throughout its entire surface incisions, each incision extending in a direction substantially crossing the reinforcing fibers, wherein substantially all of the reinforcing fibers are divided by the incisions, a length L of each of reinforcing fiber segments formed by adjacent incisions is 10 to 100 mm, a thickness H of the prepreg base material is 30 to 150 μm, a fiber volume content Vf of the reinforcing fibers is 45 to 65%, an edge of one of the incisions and edges of the adjacent incisions overlap each other when the one incision and the adjacent incisions project in a direction of the fibers so that the one incision allows the reinforcing fibers between the adjacent incisions to cut into segments with a length shorter than the length L of the fiber segments cut by the adjacent incisions, wherein each of said incisions is in the form of a slit segment having a selected length, and when said slit segment is projected in the arranging direction of said reinforcing fibers, a projected length Ws of said slit segment in the perpendicular direction to the arranging direction of said reinforcing fibers is in the range of 1 to 10 mm, and wherein said slit segments are provided in an inclined state having an inclination angle Θa in the thickness direction of said prepreg base material and having a distance S between a cut line of one of said slit segments in said reinforcing fibers in a top face of said prepreg base material and a cut line of the one of said slit segments in said reinforcing fibers in a bottom face of said prepreg base material in the arranging direction of said reinforcing fibers, and wherein the inclination angle Θa determined by the following equation (Formula I) from said distance S and said thickness H of said prepreg base material is in the range of 1 to 25°: Θa=tan-1(HS).FormulaI 11. A prepreg base material comprising: reinforcing fibers arranged substantially in one direction and matrix resin between the reinforcing fibers, wherein the prepreg base material has substantially throughout its entire surface incisions, each incision extending in a direction substantially crossing the reinforcing fibers, wherein substantially all of the reinforcing fibers are divided by the incisions, a length L of each of reinforcing fiber segments formed by the incisions is 10 to 100 mm, a thickness H of the prepreg base material is 30 to 150 μm, a fiber volume content Vf of the reinforcing fibers is 45 to 65%, each of said incisions is in the form of a slit segment having a selected length and, when said slit segment projects in an arranging direction of said reinforcing fibers, a projected length Ws of said slit segment in a direction perpendicular to the arranging direction of said reinforcing fibers is 1 to 10 mm, and wherein said slit segments are provided from top and bottom faces of said prepreg base material in a thickness direction thereof without penetrating said prepreg base material; a cut depth Hs of each of said slit segments is 0.4 to 0.6 times the thickness H of said prepreg base material; an interval La between any slit segment A in said top face and another slit segment B in said top face adjacent to said slit segment A in an orientation direction of said reinforcing fibers is 10 to 100 mm; a geometrical center of a slit segment C provided in said bottom face is located at a position where its distance measured from said slit segment A toward said slit segment B in the orientation direction of said reinforcing fibers is 0.4 to 0.6 times La; a part of said reinforcing fibers existing between said slit segment A and said slit segment B in said top face is cut by both said slit segment A in said top face and said slit segment C in said bottom face or both said slit segment B in said top face and said slit segment C in said bottom face; and geometrical shapes of slit segments in said top face and/or geometrical shapes of slit segments in said bottom face are the same as each other. 12. A prepreg base material comprising: reinforcing fibers arranged substantially in one direction and a matrix resin between the reinforcing fibers, wherein the prepreg base material has substantially throughout its entire surface incisions, each incision extending in a direction substantially crossing the reinforcing fibers, wherein substantially all of the reinforcing fibers are divided by the incisions, a length L of each of reinforcing fiber segments formed by the incisions is 10 to 100 mm, a thickness H of the prepreg base material is 30 to 150 μm, a fiber volume content Vf of the reinforcing fibers is 45 to 65%, each of said incisions is in the form of a slit segment having a selected length and, when said slit segment projects in an arranging direction of said reinforcing fibers, a projected length Ws of said slit segment in a direction perpendicular to the arranging direction of said reinforcing fibers is 1 to 10 mm, said slit segments are provided in an inclined state having an inclination angle Θa in a thickness direction of said prepreg base material and having a distance S between a cut line of one of said slit segments in said reinforcing fibers in a top face of said prepreg base material and a cut line of the one of said slit segments in said reinforcing fibers in a bottom face of said prepreg base material in the arranging direction of said reinforcing fibers, and an inclination angle Θa determined by Formula 1 from said distance S and said thickness H of said prepreg base material is 1 to 25°: Θa=tan-1(HS).(1)
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (6)
Martin L. Anderson ; Raymond N. Taylor, Cushion back carpet cutting tool.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.