the mechanical behavior of textile composites (qualitative analysis) yasser gowayed department of...
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The mechanical behavior of textile composites (qualitative analysis)
Yasser GowayedDepartment of Textile Engineering
Auburn University
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Textile Composites
• Steady Improvements in weaving technology has increased the availability of textile preforms
• Advantages include ease of handling, ability to conform to complex shape and improved residual strength after impact
• Successful application requires accurate prediction of thermo-mechanical properties and the rate of damage accumulation to allow design engineers to predict when components should be removed from service (relationship between micro damage and mechanical properties)
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Textile vs. Laminated Composites
Laminated Composites Textile Composites
• High fiber vol. fraction
• High in-plane properties
• Low out-of-plane properties
• Low resistance to crack initiation and propagation
Low fiber vol. fraction
Low in-plane properties
High out-of-plane properties
Low resistance to crack initiation and high resistanceto crack propagation
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Mechanical behavior: The Effect of Yarn Crimp
Intro to composites, Hull & Clyne
Plain weave
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T. Norman et al. FiberTex ‘92
Mechanical behavior: The Effect of Yarn Crimp
Angle Interlock weave
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Mechanical behavior: The Effect of Yarn Crimp
XYZ orthogonal weave
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Mechanical behavior: The Effect of Yarn Crimp
3D braids
www.atlanticresearchcorp.com
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Mechanical behavior: The Effect of Yarn Crimp
Knits
Univ. of Leuven, Belgium
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Stitched Composites
Mechanical behavior: The Effect of Yarn Crimp
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Laminated Composites
Textile Composite
Mechanical behavior: The Effect of Yarn Crimp
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Layup 0/90 +/- 45
Woven Laminate Woven Laminate
Thickness (mm) 2.55 2.17 2.63 2.18Strength (MPa) 545 644 214 216Failure strain 1.02 1.02 4.1 6.7Modulus (GPa) 50.2 60.1 16.3 17.1Poisson’s ratio 0.06 0.04 0.72 0.75
Tensile properties of carbon/epoxy composites:
Bishop et al., Composites 84
Mechanical behavior: The Effect of Yarn Crimp
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Layup Tensile Compressive
Woven Laminate Woven Laminate
0/90 (Curtis, ICCM 85) 597 714 542 613+/- 45 (Bishop, AGARC 83) 1102 1218 899 803+/- 45 (Curtis, ICCM 85) 903 892 815 705
Tensile and Compressive strength (MPa) of carbon/epoxy composites:
Mechanical behavior: The Effect of Yarn Crimp
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Kollegal et al.
Tensile behavior of AS4/epoxy plain weave with on and off-axis loads
Mechanical behavior: The Effect of Yarn Crimp
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Chian-Fong Yen et al.
Tensile behavior of CVI SiC/SiC plain weave
Mechanical behavior: The Effect of Yarn Crimp
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Kollegal et al.
Shear behavior of AS4/epoxy plain weave with on and off-axis loads
Mechanical behavior: The Effect of Yarn Crimp
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Mechanical behavior: The Effect of Yarn Crimp
www.materials-sciences.com
Local Fiber Failure Mechanisms Resulting from Compression of Kevlar/Epoxy Composites
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Property 3-D braid Unidirectional Tape
Fiber Vol. Fraction 0.17 0.35Total Energy Absorbed (ft.lbs) 196 93.5Crack initiation energy (ft.lbs) 48.9 10.5Crack propagation energy (ft.lbs) 145.5 83Maximum impact load (lbs) 5600 2600
Impact Behavior
Impact properties of Alumina/Al-Li composites
Ko, et al. ASTM STP 964
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Impact Behavior
Bishop, Textile Structural Composites
X-ray radiograph of fatigue damage at notches
Micrographic images of fatigue damage at notches
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Fatigue Behavior
Bishop, Textile Structural Composites
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Fatigue Behavior
Bishop, Textile Structural Composites
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Crack Initiation: The Effect of Yarn Crimp
Laminated Composites
Textile Composite(3D XYZ woven)
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Laminated Composites
Textile Composite(3D XYZ woven)
Crack Growth: The Effect of Yarn Crimp
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Crack Growth: Micrographic images
Failure of plain weaves
Univ. of Leuven, Belgium
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Crack Growth: Micrographic images
Failure of Angle Interlock weaves
T. Norman et al. FiberTex ‘92
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T. Norman et al. FiberTex ‘92
Crack Growth: Micrographic images
Pretest condition of Angle Interlock weaves with stuffers
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Crack Growth: Micrographic images
Failure of Angle Interlock weaves with stuffers
T. Norman et al. FiberTex ‘92
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Textile Composites Imperfections - voids
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Textile Composites Imperfections - voids