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Manufacturing of Fibrous Composites for Engineering Applications

Fibrous composites are one type of high-performance composite material featuring the presence of fiber-like reinforcement impregnated with different matrix bases, which have taken a prominent position in diverse engineering applications because of their unique mechanical/physical properties and outs...

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Bibliographic Details
Main Author: Xu, Jinyang
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Single-shot Drilling
Polymer
C4
Numerical Modelling
N/a
Carbon Fiber
Fibre-reinforced Composites
Special Drills
Hole Quality
Mechanical Characterization
Self-bonding
Anova
Polycarbosilane (pcs)
Void Formation
Flow Visualisation
Dual-scale Flow
Cool-clave
Microwave Preheating
Cfrp/al Stacks
Composite
Silicon Carbide
Dielectric Flow Monitoring
Additive Manufacturing
Volume Of Fluid (vof)
Organomorphic Preform (op)
Research & Information: General / Bicssc
Autoclave
Graphene Oxide
Multi-phase Model
Ceramic Foam
Co-continuous Ceramic Composites
Physics / Bicssc
Structural Characterization
Liquid Composite Molding
Compressive Strength
Milling
Drilling Process
Fiber Reinforced Plastics
Gas Infiltration
Permeability
Pyrolysis
Twist Drill
Machining Temperatures
Cfrp Composites
Fiber
Textile Preforms
Optimization
Liquid Composite Moulding
Manufacturing Techniques
Heated Tooling
Vacuum
Frpc
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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245 0 0 |a Manufacturing of Fibrous Composites for Engineering Applications  |h Elektronische Ressource 
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653 |a single-shot drilling 
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653 |a numerical modelling 
653 |a n/a 
653 |a carbon fiber 
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653 |a special drills 
653 |a hole quality 
653 |a mechanical characterization 
653 |a self-bonding 
653 |a ANOVA 
653 |a polycarbosilane (PCS) 
653 |a void formation 
653 |a flow visualisation 
653 |a dual-scale flow 
653 |a cool-clave 
653 |a microwave preheating 
653 |a CFRP/Al stacks 
653 |a composite 
653 |a silicon carbide 
653 |a dielectric flow monitoring 
653 |a additive manufacturing 
653 |a Volume of Fluid (VOF) 
653 |a organomorphic preform (OP) 
653 |a Research & information: general / bicssc 
653 |a autoclave 
653 |a graphene oxide 
653 |a multi-phase model 
653 |a ceramic foam 
653 |a co-continuous ceramic composites 
653 |a Physics / bicssc 
653 |a structural characterization 
653 |a liquid composite molding 
653 |a compressive strength 
653 |a milling 
653 |a drilling process 
653 |a fiber reinforced plastics 
653 |a gas infiltration 
653 |a permeability 
653 |a pyrolysis 
653 |a twist drill 
653 |a machining temperatures 
653 |a CFRP composites 
653 |a fiber 
653 |a textile preforms 
653 |a optimization 
653 |a liquid composite moulding 
653 |a manufacturing techniques 
653 |a heated tooling 
653 |a vacuum 
653 |a FRPC 
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520 |a Fibrous composites are one type of high-performance composite material featuring the presence of fiber-like reinforcement impregnated with different matrix bases, which have taken a prominent position in diverse engineering applications because of their unique mechanical/physical properties and outstanding structural functions. Manufacturing is a critical procedure to ensure the target dimensions and desired quality of fibrous composites. This involves technical issues frequently encountered in the fabrication, processing, and machining of these composite materials. To date, great endeavors have been made in the past few decades to address manufacturing issues associated with the engineering applications of fibrous composites. Precision manufacturing of these advanced composites has thus become a hot research topic in both academia and industry. Recent advances have been achieved covering both experimental and numerical investigations of manufacturing science and technology of fibrous composites. This Special Issue sought to report the latest research findings achieved by scholars worldwide focusing on the manufacturing science of fibrous composites for engineering applications. Well-organized papers covering both experimental and numerical studies of fabricating, processing, and machining fibrous composites were all welcomed. It was our hope that this Special Issue will provide a platform for academic and industrial researchers to share and disseminate their original research results on all manufacturing aspects of fibrous composites. 

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