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E-raamat: Mechanics of Composite, Hybrid and Multifunctional Materials, Volume 5: Proceedings of the 2023 Annual Conference & Exposition on Experimental and Applied Mechanics

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Mechanics of Composite, Hybrid, and Multifunctional Materials, Volume 5 of the Proceedings of the 2023 SEM Annual Conference & Exposition on Experimental and Applied Mechanics, the fifth volume of five from the Conference, brings together contributions to this important area of research and engineering. The collection presents early findings and case studies on a wide range of areas, including:

Advances in Composites

Recycled Composites

Tunable Materials

Damage Detection in Composites

Multifunctional Composites

Fracture and Failure in Complex Materials

Chapter
1. Deformation and Flow Characterization of Hybrid Woven
Composite Material.
Chapter
2. Development of Recycled Alumix431 based
Composites reinforced with TiB2, TiC and B4C Fine Ceramic Powders for
Aircraft Applications Produced by Combined Method: Sintering + Forging.-
Chapter
3. Static and Fatigue Behaviour of Recycled Thin Sheet Ti-Al-Nb
based Composites produced by Hot Forging Diffusion Process.
Chapter
4.
Development of Self-healing Glass Fiber Reinforced Laminate Composites for
Wind Turbine Blades.
Chapter
5. Development of Recycled Aluminium
(AA7075+AA1050) Based Hybrid Composites Reinforced with Recycled Rice Husk
Produced by Sinter Forging.
Chapter
6. Development of Ni-Al Based Composites
Reinforced with Recycled AA7075+AA1050 and Ceramics produced by Sinter
Forging Process.
Chapter
7. Design of recycled A356-A7075 Matrix
Composites reinforced with Nb2Al - Zr produced by Sinter Forging.
Chapter
8. Dynamic Piezoresistive Behaviour of Composite Materials: Experimental
Testing and Analytical Modelling.
Chapter
9. Investigating the Fracture
Resistance of Carbon Fiber-PEEK Composites Produced via Fused Filament
Fabrication.
Chapter
10. Investigating the Mechanical Performance of
Vitrimers reinforced with Hollow Glass Beads using Digital Image Correlation
Technique.
Chapter
11. Intermediate Strain Rate Behavior of a
Polymer-Particle Composite with High Solids Loading.
Chapter
12. Mesoscale
Modeling to Predict Dynamic Impact Response of Plain Weave Composites.
Frank GardeaU.S. Army Research Laboratory, MD, USA; Kunal MishraCorning Incorporated, NY, USA; Michael KellerUniversity of Tulsa, OK, USA
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