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Many efforts have been made to create light-weight materials that maintain excellent physical and chemical properties, aiming at energy savings and property enhancement for aerospace, automotive, marine, and industrial applications over the past few decades. Among them, carbon fibers and their composites have attracted significant attention because of their unique properties, including high strength and modulus, novel dimensional stability, high surface area/volume ratios, low coefficient of thermal expansion, etc. Therefore, they have been widely applied in fields of energy storage, filtration, aircraft, etc., via advanced manufacturing technologies (i.e., wet/melt spinning, solution casting, 3D printing, etc.). Processing–structure–property relationships of carbon fibers and their composites are crucial for their future applications in the fields of energy, engineering, and the environment. Various precursors and processing approaches have been studied to prepare carbon fibers and composites with specific structures to achieve excellent multifunctional properties, consisting of better mechanical, thermal, electrical, and barrier properties. However, to date, lowering the manufacturing cost and expanding their applications remain challenging. The main aim of this Special Issue is to tackle the points mentioned above for the preparation, characterization, and properties of advanced carbon fibers and their composites to offer an insight into them, facilitating their practical applications in various fields.
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Keywords
- acoustic emission
- additive manufacturing
- advanced composite cure simulation
- arctic temperature
- barely visible impact damage (BVID)
- bending behavior
- Carbon composites
- carbon fiber
- carbon fiber reinforced plastics
- carbon fiber reinforced polymer (CFRP)
- carbon fiber-reinforced composites
- carbon fibers
- carbon nano fiber
- carbon nanotubes (CNT)
- carbon short fiber
- carbon-polymer adhesion
- carding
- CF rod reinforced PLA (CFRPLA)
- CFRP
- closed-injection pultrusion
- composite
- composite beams
- composite plate
- composite sandwich structure
- composite structures
- composite tensile armor
- composites
- compressive properties
- contact molding
- curing
- curing process monitoring
- damage detection
- damage growth
- damage tolerance
- delamination
- Design of experiments
- electrospinning
- Embedded sensors
- epoxy
- epoxy matrix
- expansion
- Fatigue
- fatigue after impact
- fiber reinforced polymer
- film sensor
- finite element analysis
- Finite element method
- Finite elements
- flexible riser
- flexible sensor
- fluid flow
- fracture toughness
- fused deposition modeling (FDM)
- fuzzy carbon fiber
- glass fiber
- Graphene
- graphene-encapsulated
- hot pressing
- impact
- impact performance
- in situ measurements
- interdigital sensor
- interfacial property
- knowledge-based data boosting
- Latin hypercube sampling
- low cost
- low pressure infiltration
- Machine learning
- Materials science
- mechanical and thermal properties
- mechanical interlocking
- mechanical performance
- Mechanical properties
- metal matrix composite
- Molecular Dynamics
- n/a
- Nanoparticles
- nonwoven
- OER
- optimization study
- PAN
- pet
- piezoelectric wafer active sensors (PWAS)
- polyamide 6
- polyethylene terephthalate
- polymer matrix
- Polymers
- polypropylene
- power ultrasonic
- predictive analytic
- preform-less
- prepreg processing
- process parameters
- process-induced shape deformation
- pultrusion
- quantum piezo-resistive sensor (QRS)
- recycling
- renewables
- Sensing
- sensor integration
- Smart materials
- solid carbon fiber rod
- stress concentration
- Structural health monitoring
- structural health monitoring (SHM)
- tensile armor
- tensile strength
- thema EDItEUR::P Mathematics and Science
- thema EDItEUR::P Mathematics and Science::PN Chemistry
- thema EDItEUR::P Mathematics and Science::PN Chemistry::PNC Environmental chemistry
- thermal and mechanical property
- thermal cycling
- thermoplast
- Thermoplastics
- Tissue Engineering
- turbostratic interconnected graphene
- uniaxial deformation
- viscosity
- wettability
Links
DOI: 10.3390/books978-3-7258-1064-2Editions