A proposal to Investigate Stitched Composites Undergoing Delamination Using Multiscale Modeling Approach

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(Created page with "===Background=== ===Corrosion mechanisms=== ===Stress Corrosion Cracking=== ===Atomistics=== ===Electronics Principles=== ===References=== <references/> [[Catego...")
 
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===References===
 
===References===
 +
[1] Mouritz, A. P., et al. (1997). "A review of the effect of stitching on the in-plane mechanical
 +
properties of fibre-reinforced polymer composites." Composites Part A: Applied Science
 +
and Manufacturing 28(12): 979-991.
 +
 +
[2] Nishimura, A., et al. (1986). “New fabric structures for composite.” Recent Adv. In Japan
 +
and the United States: 29-36
 +
 +
[3] Tan, K. T., et al. (2010). "Effect of stitch density and stitch thread thickness on low-velocity
 +
impact damage of stitched composites." Composites Part A: Applied Science and
 +
Manufacturing 41(12): 1857-1868.
 +
 +
[4] Aktaş, A., et al. (2014). "Impact and post impact (CAI) behavior of stitched woven–knit
 +
hybrid composites." Composite Structures 116: 243-253.
 +
 +
[5] Tan, K. T., et al. (2013). "Effect of stitch density and stitch thread thickness on damage
 +
progression and failure characteristics of stitched composites under out-of-plane loading."
 +
Composites Science and Technology 74: 194-204.
 +
 +
[6] Liotier, P.-J., et al. (2010). "Characterization of 3D morphology and microcracks in
 +
composites reinforced by multi-axial multi-ply stitched preforms." Composites Part A:
 +
Applied Science and Manufacturing 41(5): 653-662.
 +
 +
[7] Carvelli, V. “Mutli-Scale Mechanical Numerical Analysis of Multi-Axial Composites.”
 +
16th International Conference on Composite Materials: 1-7.
 +
 +
[8] Carvelli, V., et al. (2010). "Fatigue and post-fatigue tensile behaviour of non-crimp stitched
 +
and unstitched carbon/epoxy composites." Composites Science and Technology 70(15):
 +
2216-2224.
 +
 +
[9] Bathgate, R. G., et al. (1997). "Effects of temperature on the creep behaviour of woven and
 +
stitched composites." Composite Structures 38(1–4): 435-445.
 +
 +
[10] Pang, F., et al. (1997). "Creep response of woven-fibre composites and the effect of
 +
stitching." Composites Science and Technology 57(1): 91-98.
 +
 +
[11] Tan, K. T., et al. (2010). "Experimental investigation of bridging law for single stitch fibre
 +
using Interlaminar tension test." Composite Structures 92(6): 1399-1409.
 +
 +
[12] Horstemeyer, M. (2012). Integrated Computational Materials Engineering (ICME) For
 +
Metals. Chapter 5: 146-147.
 +
 +
[13] Nouranian, S., et al. (2014). “An interatomic potential for saturated hydrocarbons based on
 +
the modified embedded-atom method.” Royal Society of Chemistry, 16: 6233.
 +
 +
[14] Khalatur P.G. (2012). Molecular Dynamics Simulations in Polymer Science: Methods and
 +
Main Results. Polymer Science: A Comprehensive Review, 1: 417-460.
 +
 +
[15] Changwoon, J. (2013). Interfacial shear strength of cured vinyl ester resin-graphite
 +
nanoplatelet from moleculr dynamic simulations.” Polymer 54: 3282-3289.
 +
 +
[16] Changwoon, J. (2012). “Relative Reactivity Volume Criterian for Cross-Linking:
 +
Application to Vinyl Ester Resin Molecular Dynamic Simulations.” Macromolecules, 45:
 +
4876-4885.
 +
 +
[17] Odegard, G. M., et al. “Prediction of Mechanical Properties of Polymers with Various
 +
Force Fields.” American Institute of Aeronautics and Astronautics: 1-12.
 +
 
<references/>
 
<references/>
 +
 
[[Category: Macroscale]]
 
[[Category: Macroscale]]

Revision as of 15:29, 1 April 2017

Contents

Background

Corrosion mechanisms

Stress Corrosion Cracking

Atomistics

Electronics Principles

References

[1] Mouritz, A. P., et al. (1997). "A review of the effect of stitching on the in-plane mechanical properties of fibre-reinforced polymer composites." Composites Part A: Applied Science and Manufacturing 28(12): 979-991.

[2] Nishimura, A., et al. (1986). “New fabric structures for composite.” Recent Adv. In Japan and the United States: 29-36

[3] Tan, K. T., et al. (2010). "Effect of stitch density and stitch thread thickness on low-velocity impact damage of stitched composites." Composites Part A: Applied Science and Manufacturing 41(12): 1857-1868.

[4] Aktaş, A., et al. (2014). "Impact and post impact (CAI) behavior of stitched woven–knit hybrid composites." Composite Structures 116: 243-253.

[5] Tan, K. T., et al. (2013). "Effect of stitch density and stitch thread thickness on damage progression and failure characteristics of stitched composites under out-of-plane loading." Composites Science and Technology 74: 194-204.

[6] Liotier, P.-J., et al. (2010). "Characterization of 3D morphology and microcracks in composites reinforced by multi-axial multi-ply stitched preforms." Composites Part A: Applied Science and Manufacturing 41(5): 653-662.

[7] Carvelli, V. “Mutli-Scale Mechanical Numerical Analysis of Multi-Axial Composites.” 16th International Conference on Composite Materials: 1-7.

[8] Carvelli, V., et al. (2010). "Fatigue and post-fatigue tensile behaviour of non-crimp stitched and unstitched carbon/epoxy composites." Composites Science and Technology 70(15): 2216-2224.

[9] Bathgate, R. G., et al. (1997). "Effects of temperature on the creep behaviour of woven and stitched composites." Composite Structures 38(1–4): 435-445.

[10] Pang, F., et al. (1997). "Creep response of woven-fibre composites and the effect of stitching." Composites Science and Technology 57(1): 91-98.

[11] Tan, K. T., et al. (2010). "Experimental investigation of bridging law for single stitch fibre using Interlaminar tension test." Composite Structures 92(6): 1399-1409.

[12] Horstemeyer, M. (2012). Integrated Computational Materials Engineering (ICME) For Metals. Chapter 5: 146-147.

[13] Nouranian, S., et al. (2014). “An interatomic potential for saturated hydrocarbons based on the modified embedded-atom method.” Royal Society of Chemistry, 16: 6233.

[14] Khalatur P.G. (2012). Molecular Dynamics Simulations in Polymer Science: Methods and Main Results. Polymer Science: A Comprehensive Review, 1: 417-460.

[15] Changwoon, J. (2013). Interfacial shear strength of cured vinyl ester resin-graphite nanoplatelet from moleculr dynamic simulations.” Polymer 54: 3282-3289.

[16] Changwoon, J. (2012). “Relative Reactivity Volume Criterian for Cross-Linking: Application to Vinyl Ester Resin Molecular Dynamic Simulations.” Macromolecules, 45: 4876-4885.

[17] Odegard, G. M., et al. “Prediction of Mechanical Properties of Polymers with Various Force Fields.” American Institute of Aeronautics and Astronautics: 1-12.


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