Posted in | Nanomaterials | Nanoanalysis

New Report on Fatigue Analysis of Nanocomposites and Fiber Reinforced Polymers

Published on December 20, 2012 at 6:02 AM

Research and Markets has announced the addition of the "Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations" report to their offering.

Book is organized around new experiments in and modeling of fatigue and its effects over a range of composite materials subjected to multiple mechanical and thermal stresses. An objective of the investigations discussed is to explain failure mechanisms and improve long-term loading prediction and performance. Chapters in the book are edited and refereed presentations made at the most recent ICFC5 conference, held in Nanjing, China.

- Fatigue analysis of laminated, braided, woven composites and nanocomposites

- Critical data for long-term composites' performance

Key Topics Covered:

1. Fatigue Life Assessment via Ply-By-Ply Stress Analysis Under Biaxial Loading

2. A Residual Stiffness - Residual Strength Coupled Model for Composite Laminate Under Fatigue Loading

3. Damage in Thermoplastic Composite Structures: Application to High Pressure Hydrogen Storage Vessels

4. Cyclic Interlaminar Crack Growth in Unidirectional and Braided Composites

5. Experimental Analysis and Modelling of Fatigue Behaviour of Thick Woven Laminated Composites

6. Fatigue Behaviour of Woven Composite p Joint

7. Monotonic and Cyclic Deformation Behavior of Ultrasonically Welded Hybrid Joints Between Light Metals and Carbon Fiber Reinforced Polymers (CFRP)

8. Fatigue-Driven Residual Life Models Based on Controlling Fatigue Stress and Strain in Carbon Fibre/Epoxy Composites

9. An Energy-Based Fatigue Approach for Composites Combining Failure Mechanisms, Strength and Stiffness Degradation

10. Fatigue Life Prediction Of Off-Axis Unidirectional Laminate

11. Thermal Fatigue of AX41 Magnesium Alloy Based Composite Studied Using Thermal Expansivity Measurements

12. Fabrication of TI/APC-2 Nanocomposite Laminates and Their Fatigue Response at Elevated Temperature

13. Fatigue and Fracture of Elastomeric Matrix Nanocomposites

14. Fatigue Delamination of Carbon Fiber Fabrics Reinforced PPS Laminates

15. Damage Mechanism and Fatigue Behaviour of Uniaxially and Sequentially Loaded Wound Tube Specimens

16. Influence of Thermal and Mechanical Cycles on the Damping Behaviour of Mg Based-Nanocomposite

17. Delamination Detection in CFRP Laminates Using A0 and S0 Lamb Wave Modes

18. Calorimetric Analysis of Dissipative Effects Associated with the Fatigue of GFRP Composites

19. Correlation Between Crack Propagation Rate and Cure Process of Epoxy Resins

Source: http://www.researchandmarkets.com/

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