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Advanced Thermoplastic Polymers and Composites

Advanced Thermoplastic Polymers and Composites

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In the last decade, design and material innovations for manufacturing composites have reached new heights. Thermoplastic polymers and their composites have become the most in-demand materials in recent times as they provide numerous advantages over thermoset composites. Thermoplastic polymers have a high damage tolerance, high impact resistance, recyclability, formability, weldability, repairability, and cost-effectiveness compared with thermoset composites. Thermoplastic polymers and composites are widely used in automotive, aerospace, electrical and electronics, industrial, and medical applications. Thermoplastic composites are estimated to grow from USD 28.0 billion in 2019 to USD 36.0 billion by 2024. High-performance thermoplastic materials are used in conjunction with a multitude of manufacturing processes like injection moulding, thermoforming, prepreg, liquid injection processes, automated tape placement, filament winding, pultrusion, additive manufacturing, and other processes. The material limits, design, and assembly requirements, as well as the processing constraints, are significantly important for the realisation of novel product development using a manufacturing process by simultaneously optimising reliability, safety, and other performance-related issues. The current thermoplastic material systems and manufacturing techniques still have plenty of room for optimisation and advancement. This reprint presents the latest scientific and technical advances in thermoplastic materials and their composites, processing, characterisation, product development, and manufacturing process parameter optimisations.

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Keywords

  • 3D composites
  • 3D printing
  • 4D printing
  • ABS
  • Adhesion
  • aircraft cabin interior panels
  • Antibacterial activity
  • antimicrobial
  • automated fiber placement
  • automated tape placement
  • bending
  • benzimidazole
  • bio-applications
  • biobased polymer composites
  • Biodegradable
  • biopolymers
  • block copolyurethane
  • bone scaffold
  • carbon nanofiller
  • carbon nanotube
  • carbon nanotubes
  • cardo fragments
  • chitosan
  • circular distribution
  • Clay minerals
  • co-bonding
  • co-plasticization
  • compatibilizer
  • composite
  • Compound
  • consolidation
  • copper nanoparticles
  • crystallization behavior
  • CT scan
  • Diffusion
  • digital fabrication
  • DOE
  • electrical properties
  • energetic binder
  • EWF
  • extrusion
  • failure mechanisms
  • FDM
  • fiber length
  • fiber orientation
  • fiber reinforced
  • fibre misalignment
  • filament winding
  • finite element modelling
  • fluorinated aromatic polyimide
  • foam
  • foams
  • fractography
  • fracture toughness
  • graphene nanoplatelet
  • heat resistance
  • high temperature
  • History of engineering & technology
  • hollow composite tubes
  • hybrid composites
  • hybrid fibers
  • impregnation processes
  • in situ consolidation
  • injection molding
  • interphase
  • IR spectroscopy
  • isosorbide
  • ligand
  • long-fiber-reinforced thermoplastic
  • low dielectric loss
  • manufacturing
  • material programming
  • Materials science
  • Mechanical engineering & materials
  • Mechanical properties
  • Mechanical Property
  • metallic ions
  • microcrystalline cellulose
  • molecular chain orientation
  • molecular dynamics simulation
  • nanocomposite
  • nanocomposites
  • nanofiller
  • non-crimp fabrics
  • non-structural composite panels
  • off-axis flexure behaviour
  • oil palm fiber
  • oil palm fiber composites
  • oMMT
  • on-axis flexure behaviour
  • optimal curing of prepregs
  • packaging
  • PBAT
  • PCL
  • phosphorescent composites
  • physio-thermo-mechanical properties
  • PLA
  • poly(butylene adipate-co-terephthalate)
  • polyamide 12
  • polyethylene glycol
  • polyimide foam
  • polymer modification
  • polymer-layered silicates
  • Polymers
  • polyphenylene sulfone
  • polypropylene
  • polyurethane
  • PPS
  • process modeling
  • processing
  • processing parameters
  • Properties
  • recycled bone powder
  • reinforcements
  • resin transfer molding
  • retrogradation
  • rheological properties
  • rheological property
  • rheology
  • rigid closed-cell foam
  • scratch
  • scratch resistance
  • sensitivity
  • shape-memory polymers
  • simulation
  • starch
  • supercritical CO2
  • Taguchi
  • Technology, engineering, agriculture
  • Technology: general issues
  • textured surface
  • thermal analysis
  • thermal and mechanical
  • thermal behavior
  • thermal conductivity
  • Thermal properties
  • thermoforming
  • thermoplastic
  • thermoplastic composites
  • thermoplastic face sheets
  • thermoplastic matrix composites
  • thermoplastic polymer
  • thermoplastic resin
  • thermoplastic starch
  • Thermoplastics
  • thermoset
  • thermosetting resins
  • thermostability
  • ultra-high molecular weight component
  • vacuum assisted resin infusion (VARI)
  • vacuum forming
  • void content
  • voids

Links

DOI: 10.3390/books978-3-0365-8058-6

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