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Advances in Textile Structural Composites
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The direction of fiber orientation plays a crucial role in deciding the mechanical performance of textile structural composites. Unlike conventional composite materials, geometrically oriented textile structures, e.g., woven, knitted, and braided constructions, can be designed and developed for load bearing in a particular direction. Their properties can be enhanced by modifying the geometry and material composition. One major challenge in producing textile structural composites with superior mechanical properties at a reasonably lower price is cost effective prepreg. Composites constructed from reinforcement having a well-defined geometry perform better than randomly oriented fibers at a reasonable cost. Their flex fatigue is superior to conventional preforms in specific applications. This Special Issue invites research as well as review articles dealing with different types of (2D, 3D, multiaxial) woven, knitted, and braided structures for load bearing structural composite applications. Use of industrial multifilament yarns of pure and hybrid composition in textile geometrical reinforcement structures can also be included. The methods of impregnation of such structures by thermoplastic and thermoset resins should be described. The superior performance in such structural composites must be highlighted. Methods of characterizing woven, knitted, and braided textile reinforced composites is the focus of this issue. Current and future applications of advanced textile structural composites can be summarized in the submitted articles. Theoretical (computational, numerical simulation etc.) as well as experimental work can be submitted with sufficient scientific innovation.
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Keywords
- 3D weaving
- add-on (%)
- amount of hardener (%)
- anisotropic flexure hinges
- Architecture
- architectured materials
- auxetic
- Building materials
- carbon-Kevlar
- coir pith filler
- compliant mechanism
- compression
- curing temperature
- curing time
- cyclic fatigue
- epoxy resin
- fiber composites
- flexural modulus
- flexural rigidity
- FRP
- Glass
- glass cloth
- glass transition temperature
- History of engineering & technology
- hollow knitted composite
- hollow structure
- hybrid composite
- hybrid woven reinforcement
- Hysteresis
- impact
- impact energy
- integrally woven structure
- low-velocity impact
- Mechanical properties
- mixture design analysis
- molding pressure
- n/a
- natural cotton fabric
- non-newtonian fluids
- olive root fiber
- pad cratering
- personal protection
- polyester waste fiber
- polymer composite
- Preforming
- pressure-actuated cellular structure
- quasi-static test
- recycled cotton
- resin
- Safety
- sandwich
- SEM
- Service life
- shape morphing
- spacer fabric
- substrate
- surface finish
- Technology, engineering, agriculture
- Technology: general issues
- textile structural composite
- textile-reinforced polymer composite
- thermal resistance
- waste cotton
- wavy-lap bond
- woven honeycomb
Links
DOI: 10.3390/books978-3-0365-6595-8Editions