This invention provides multi-layered composites, laminates and composite joints in which at least one resin-impregnated, fiber-containing layer is joined or laminated to a core layer having a lower flexural modulus or higher elongation at break, higher toughness, or a combination of all or some of
This invention provides multi-layered composites, laminates and composite joints in which at least one resin-impregnated, fiber-containing layer is joined or laminated to a core layer having a lower flexural modulus or higher elongation at break, higher toughness, or a combination of all or some of these properties. The multi-layer composite produced by laminating or joining these materials together has improved shearout, impact and cutting resistance, since stresses caused by outside forces can be more widely distributed throughout the composite.
대표청구항▼
I claim: 1. A bolted or riveted mechanically fastened composite structural joint, comprising: (a) a substrate material having a fastener hole; (b) a multi-layered composite having a fastener hole, and (c) a bolt or rivet fastener disposed within the fastener holes of the substrate and composite mat
I claim: 1. A bolted or riveted mechanically fastened composite structural joint, comprising: (a) a substrate material having a fastener hole; (b) a multi-layered composite having a fastener hole, and (c) a bolt or rivet fastener disposed within the fastener holes of the substrate and composite materials to secure the materials together; said multi-layered composite further including: (i) a pair of resin-impregnated, fiber-containing layers, having a first toughness; (ii) a fiber-containing core layer having a second, greater toughness than said pair of resin-impregnated fiber-containing layers, said fiber-containing core layer sandwiched between said pair of resin-impregnated, fiber-containing layers, wherein said pair of resin-impregnated, fiber-containing layers are laminated to said fiber-containing core layer; and (iii) a polyolefin adhesive web disposed between said fiber-containing core layer and each of said pair of resin-impregnated fiber-containing layers; said composite joint having improved resistance to damage caused by externally applied forces; wherein said fiber-containing core layer contains no matrix resin. 2. The composite joint of claim 1 wherein said fiber-containing core layer comprises polymeric fibers and said pair of resin-impregnated, fiber containing layers comprise glass fibers. 3. The composite joint of claim 1 wherein at least one of said pair of resin-impregnated, fiber-containing layers comprises a fiber having a first elongation at break, and said fiber-containing core layer comprises a fiber having a second elongation at break which is higher than said first elongation at break. 4. The composite joint of claim 1 wherein at least one of said pair of resin-impregnated fiber containing layers comprises a high tensile modulus fiber and said fiber-containing core layer comprises a roving, yarn, or tow. 5. The composite joint of claim 1 wherein said pair of resin-impregnated, fiber-containing layers and said fiber-containing core layer comprise two readily separable materials, amounting to at least 95 wt. % of said composite, for facilitating recyclability. 6. An aircraft or motor vehicle body panel or door comprising the composite joint of claim 1. 7. The composite joint of claim 1, wherein said pair of resin-impregnated, fiber containing layers have a first tensile modulus and said fiber-containing core layer has a second tensile modulus that is lower than said first tensile modulus. 8. The composite joint of claim 1, wherein said composite material is formed by suspending the fiber-containing core layer in an injection mold, and molding the pair of resin-impregnated, fiber-containing layers around the fiber-containing core layer. 9. The composite joint of claim 1 wherein said fiber-containing core layer comprises a thermoplastic yarn, roving, tow, woven or non-woven fabric, mat, scrim or web. 10. The composite joint of claim 9 wherein said fiber-containing core layer comprises aramid fiber. 11. A bolted or riveted mechanically fastened composite structural joint, comprising: (a) a substrate material; (b) a multi-layered composite including: (i) a pair of resin-impregnated, fiber-containing layers, having a first toughness; (ii) a fiber-containing core layer having a second, greater toughness than said pair of resin-impregnated fiber-containing layers, said fiber-containing core layer sandwiched between said pair of resin-impregnated, fiber-containing layers wherein the fiber material of said pair of resin-impregnated, fiber-containing layers comprises a knit, woven or non-woven glass fabric having a basis weight of at least about 400 g/m2, and the fiber material of the fiber-containing core layer comprises a woven or non-woven polymer fabric having a basIs weight of at least 200 g/m2; and (iii) a bolt or rivet fastener engaged with the substrate and composite materials to secure the materials together; wherein said fiber-containing core layer contains no matrix resin. 12. The composite joint of claim 11, wherein said pair of resin-impregnated, fiber containing layers have a first tensile modulus and said fiber-containing core layer has a second tensile modulus that is lower than said first tensile modulus. 13. The composite joint of claim 11, wherein said fiber-containing core layer comprises aramid fibers. 14. The composite joint of claim 11, wherein said composite material is formed by suspending the fiber-containing core layer in an injection mold, and molding the pair of resin-impregnated, fiber-containing layers around the fiber-containing core layer. 15. The composite joint of claim 11, wherein said fiber-containing core layer comprises loose fibers. 16. A bolted or riveted mechanically fastened composite structural joint, comprising: (a) a substrate material having a fastener hole; (b) a multi-layered composite material having a fastener hole, the composite material disposed over at least a portion of the substrate material so as to align the fastener holes of the substrate and composite materials; and (c) a bolt or rivet fastener disposed within the fastener holes of the substrate and composite materials to secure the materials together; wherein said composite material further includes: (i) a pair of resin-impregnated, fiber-containing layers having a first toughness; and (ii) a fiber-containing core layer having a second, greater toughness than said pair of resin-impregnated fiber-containing layers, said fiber-containing core layer sandwiched between said pair of resin-impregnated, fiber-containing layers; and wherein said fiber-containing core layer contains no matrix resin, and said fiber-containing core layer acts to absorb shear energy generated when a force is applied to said composite material via the bolt or rivet fastener. 17. The composite joint of claim 16, wherein said pair of resin-impregnated, fiber containing layers have a first tensile modulus and said fiber-containing core layer has a second tensile modulus that is lower than said first tensile modulus. 18. The composite joint of claim 16, wherein said fiber-containing core layer comprises aramid fibers. 19. The composite joint of claim 16, wherein said composite material is formed by suspending the fiber-containing core layer in an injection mold, and molding the pair of resin-impregnated, fiber-containing layers around the fiber-containing core layer. 20. The composite joint of claim 16, wherein said fiber-containing core layer comprises loose fibers.
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