Carbon Fiber AS4, 6501-6 Resin composite Polymer Matrix Composite (PMC)

coupon

E1 longitutinal modulus GPa MIL-HANDBOOK 17 Tensile Test Frame "Standard .5x10' coupons were tested in tension according to the MIL-HNDBK 17" "Data were computed via regression and cord techniques from the stress strain curve between 1000 and 3000 micro inch/inch" 20.E9 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. E2 transverse modulus GPa MIL-HNDBK-17 90 tensile test 1.5 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. E3 transverse modulus GPa MIL-HANDBOOK 17 Tensile Test Frame "Standard .5x10' coupons were tested in tension according to the MIL-HNDBK 17" "Data were computed via regression and cord techniques from the stress strain curve between 1000 and 3000 micro inch/inch" 1.5 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. G12 shear modulus GPa MIL-HANDBOOK 17 Tensile Test Frame "Standard .5x10' coupons were tested in tension according to the MIL-HNDBK 17" "Data were computed via regression and cord techniques from the stress strain curve between 1000 and 3000 micro inch/inch" 1.5 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. G13 shear modulus GPa MIL-HANDBOOK 17 Tensile Test Frame "Standard .5x10' coupons were tested in tension according to the MIL-HNDBK 17" "Data were computed via regression and cord techniques from the stress strain curve between 1000 and 3000 micro inch/inch" 1.5 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. G23 shear modulus GPa MIL-HANDBOOK 17 Tensile Test Frame "Standard .5x10' coupons were tested in tension according to the MIL-HNDBK 17" "Data were computed via regression and cord techniques from the stress strain curve between 1000 and 3000 micro inch/inch" 1.5 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. nu12 Poisson's ratio None MIL-HANDBOOK 17 Tensile Test Frame "Standard .5x10' coupons were tested in tension according to the MIL-HNDBK 17" "Data were computed via regression and cord techniques from the stress strain curve between 1000 and 3000 micro inch/inch" 0.38 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. nu13 Poisson's ratio None MIL-HANDBOOK 17 Tensile Test Frame "Standard .5x10' coupons were tested in tension according to the MIL-HNDBK 17" "Data were computed via regression and cord techniques from the stress strain curve between 1000 and 3000 micro inch/inch" 0.38 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. nu23 Poisson's ratio None MIL-HANDBOOK 17 Tensile Test Frame "Standard .5x10' coupons were tested in tension according to the MIL-HNDBK 17" "Data were computed via regression and cord techniques from the stress strain curve between 1000 and 3000 micro inch/inch" 0.38 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. StackupSequence None MIL-HANDBOOK 17 Manufacturing specification "counting layers of plies" "Data were evaluated via counting plies from the top" 30,-30,0,-30,30 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. Thickness cm Defined User defined specification "as much as the user wants it to be" "Data were defined such as they match actual thickness of material" 0.3 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. Coefficient C11 of Dissipated Energy cm Defined User defined specification "as much as the user wants it to be" "Data were defined such as they match actual thickness of material" 0.3 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. Coefficient C12 of Dissipated Energy cm Defined User defined specification "as much as the user wants it to be" "Data were defined such as they match actual thickness of material" 0.3 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. Coefficient C22 of Dissipated Energy cm Defined User defined specification "as much as the user wants it to be" "Data were defined such as they match actual thickness of material" 0.3 Time of experiment 2,4,6,8,10 minutes See details in MeasurementTechnique Notes. Speed of Grip Separation 270,270,270,270,270 m/minute See details in MeasurementTechnique Notes. Applied Normal Load 2,2,2,2,2 kg See details in MeasurementTechnique Notes. AS4 fiber Carbon AISI 1018

coupon

Extrusion The fibers were cylinder 1mm dia Wear (Weight Loss Analysis) g See DataSource under Wear (Weight Loss Analysis) in BulkDetails. Block-on-disk tribometer See Notes under Wear (Weight Loss Analysis) in BulkDetails. .0019,.0036,.0057,.0073,.0090 Time 2,4,6,8,10 minutes Sliding Speed (Steel Ring) 270,270,270,270,270 m/minute Applied Normal Load 2,2,2,2,2 kg Microhardness kg/mm^2 MIL-HANDBOOK 17 Knoop Indentation "Microhardness measurements were performed on a Buehler Micromet II 172 +- 12 Applied Normal Load 2,2,2,2,2 kg titanium carbide coating substrate Stifness Providing component Elastic Modulus E Young's Modulus Elastic Tensile Modulus Modulus of Elasticity Coefficient of Elasticity Static Modulus Tensile Modulus Modulus in Tension "Elastic Modulus is a measure of rigidity or stiffness of a material and is defined as the ratio of stress to strain in the elastic region. E is numerically equal to the slope of the stress-strain curve in the range of linear proportionality of stress to strain. Elastic Modulus is a term sometimes used for both compressive and tensile stresses, provided that the strain is directly proportional to the applied stress. Nonisotropic materials may possess greatly different compressive and tensile stress-strain curves, and, therefore, different bulk and elastic moduli." The definition and other details provided here for Elastic Modulus come from "ASM Ready Reference: Properties and Units for Engineering Alloys", ISBN:0-87170-585-0. Shear Modulus G Shear Modulus of Elasticity "Shear Modulus is a measure of torsional rigidity or stiffness of a material and is defined as the ratio of stress to strain in the elastic region. G is numerically equal to the slope of the stress-strain curve in the range of linear proportionality of stress to strain. " The definition and other details provided here for Elastic Modulus come from "ASM Ready Reference: Properties and Units for Engineering Alloys", ISBN:0-87170-585-0. Poisson's Ratio nu Young's Modulus Elastic Tensile Modulus Modulus of Elasticity Coefficient of Elasticity Static Modulus Tensile Modulus Modulus in Tension "Elastic Modulus is a measure of rigidity or stiffness of a material and is defined as the ratio of stress to strain in the elastic region. E is numerically equal to the slope of the stress-strain curve in the range of linear proportionality of stress to strain. Elastic Modulus is a term sometimes used for both compressive and tensile stresses, provided that the strain is directly proportional to the applied stress. Nonisotropic materials may possess greatly different compressive and tensile stress-strain curves, and, therefore, different bulk and elastic moduli." The definition and other details provided here for Elastic Modulus come from "ASM Ready Reference:Properties and Units for Engineering Alloys", ISBN:0-87170-585-0.