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Composite material
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====Mechanical properties of fiber composite materials==== {| class="wikitable" |+Fibres @ 0Β° (UD), 0/90Β° (fabric) to loading axis, Dry, Room Temperature, V<sub>f</sub> = 60% (UD), 50% (fabric) Fibre / Epoxy Resin (cured at 120 Β°C)<ref name=":2">{{cite web |title=Mechanical Properties of Carbon Fibre Composite Materials |url=http://www.performance-composites.com/carbonfibre/mechanicalproperties_2.asp |website=www.performance-composites.com |access-date=2020-05-22 |archive-date=2020-06-03 |archive-url=https://web.archive.org/web/20200603174526/http://www.performance-composites.com/carbonfibre/mechanicalproperties_2.asp |url-status=live}}</ref> | !Symbol !Units !Standard Carbon Fiber Fabric !High Modulus Carbon Fiber Fabric !E-Glass Fibre Glass Fabric !Kevlar Fabric !Standard Unidirectional Carbon Fiber Fabric !High Modulus Unidirectional Carbon Fiber Fabric !E-Glass Unidirectional Fiber Glass Fabric !Kevlar Unidirectional Fabric !Steel S97 |- !Young's Modulus 0Β° |E1 |GPa |70 |85 |25 |30 |135 |175 |40 |75 |207 |- !Young's Modulus 90Β° |E2 |GPa |70 |85 |25 |30 |10 |8 |8 |6 |207 |- !In-plane Shear Modulus |G12 |GPa |5 |5 |4 |5 |5 |5 |4 |2 |80 |- !Major Poisson's Ratio |v12 | |0.10 |0.10 |0.20 |0.20 |0.30 |0.30 |0.25 |0.34 | β |- !Ult. Tensile Strength 0Β° |Xt |MPa |600 |350 |440 |480 |1500 |1000 |1000 |1300 |990 |- !Ult. Comp. Strength 0Β° |Xc |MPa |570 |150 |425 |190 |1200 |850 |600 |280 | β |- !Ult. Tensile Strength 90Β° |Yt |MPa |600 |350 |440 |480 |50 |40 |30 |30 | β |- !Ult. Comp. Strength 90Β° |Yc |MPa |570 |150 |425 |190 |250 |200 |110 |140 | β |- !Ult. In-plane Shear Stren. |S |MPa |90 |35 |40 |50 |70 |60 |40 |60 | β |- !Ult. Tensile Strain 0Β° |ext |% |0.85 |0.40 |1.75 |1.60 |1.05 |0.55 |2.50 |1.70 | β |- !Ult. Comp. Strain 0Β° |exc |% |0.80 |0.15 |1.70 |0.60 |0.85 |0.45 |1.50 |0.35 | β |- !Ult. Tensile Strain 90Β° |eyt |% |0.85 |0.40 |1.75 |1.60 |0.50 |0.50 |0.35 |0.50 | β |- !Ult. Comp. Strain 90Β° |eyc |% |0.80 |0.15 |1.70 |0.60 |2.50 |2.50 |1.35 |2.30 | β |- !Ult. In-plane shear strain |es |% |1.80 |0.70 |1.00 |1.00 |1.40 |1.20 |1.00 |3.00 | β |- !Density | |g/cc |1.60 |1.60 |1.90 |1.40 |1.60 |1.60 |1.90 |1.40 | β |} <br/> {| class="wikitable" |+Fibres @ Β±45 Deg. to loading axis, Dry, Room Temperature, Vf = 60% (UD), 50% (fabric)<ref name=":2"/> ! !Symbol !Units !Standard Carbon Fiber !High Modulus Carbon Fiber !E-Glass Fiber Glass !Standard Carbon Fibers Fabric !E-Glass Fiber Glass Fabric !Steel !Al |- !Longitudinal Modulus |E1 |GPa |17 |17 |12.3 |19.1 |12.2 |207 |72 |- !Transverse Modulus |E2 |GPa |17 |17 |12.3 |19.1 |12.2 |207 |72 |- !In Plane Shear Modulus |G12 |GPa |33 |47 |11 |30 |8 |80 |25 |- !Poisson's Ratio |v12 | |.77 |.83 |.53 |.74 |.53 | | |- !Tensile Strength |Xt |MPa |110 |110 |90 |120 |120 |990 |460 |- !Compressive Strength |Xc |MPa |110 |110 |90 |120 |120 |990 |460 |- !In Plane Shear Strength |S |MPa |260 |210 |100 |310 |150 | | |- !Thermal Expansion Co-ef |Alpha1 |Strain/K |2.15 E-6 |0.9 E-6 |12 E-6 |4.9 E-6 |10 E-6 |11 E-6 |23 E-6 |- !Moisture Co-ef |Beta1 |Strain/K |3.22 E-4 |2.49 E-4 |6.9 E-4 | | | | |}
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