Intro; Contents; About the Editors; Machining of FRP Composites: Surface Quality, Damage, and Material Integrity: Critical Review and Analysis; 1 Introduction; 2 Damage Analysis and Characterization in Function of the Process of Machining; 2.1 Conventional Machining; 2.2 Nonconventional Processes; 3 Influences of Damage Induced on Mechanical Performance; 3.1 Tensile Test; 3.2 Compressive Test; 3.3 Shear Test; 3.4 Bending Test; 3.5 Fatigue Test; 3.6 Impact Test; 4 Conclusion; 5 Recommendations and Future Work; References.
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2 Materials and Methods2.1 Alternatives and Criteria; 2.2 Weighting Strategy; 2.3 Ranking via Interval TOPSIS Method; 3 Results and Discussion; 3.1 Weight of Criteria; 3.2 Ranking; 3.3 Sensitivity Analysis; 4 Conclusion; References; Intelligent Decision Making Tools in Manufacturing Technology Selection; 1 Introduction; 2 A Decision Framework for Manufacturing Technology Evaluation; 2.1 AHP; 2.2 Combined Compromise Solution (CoCoSo); 3 Empirical Case and Results; 4 Conclusion; References; Application of MCDM Techniques on Nonconventional Machining of Composites; 1 Introduction; 2 Methodology.
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2.1 AHP2.2 MOORA; 3 Experimental Details; 3.1 Material Used in Experiments; 3.2 Experimentation; 4 Results; 4.1 ANOVA for MRR, SR, and Residual Stress; 4.2 Implementation of AHP and MOORA in EDM Process; 5 Conclusion; References; Multi-objective Optimization of MWCNT Mixed Electric Discharge Machining of Al-30SiCp MMC Using Particle Swarm Optimization; 1 Introduction; 2 Experimental Planning and Optimization; 2.1 Materials and Experimentation; 2.2 Materials Characterization; 2.3 Optimization Using MO-PSO; 3 Results and Discussions; 3.1 Effect of Process Parameter on MRR and SR.
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2.3 FE Input from Geometrical and Material Variations3 Experimental Determination of Composite Variabilities; 3.1 Reinforcement Orientation; 3.2 Ply Thickness; 4 Application of Finite Element Model with Variabilities; 4.1 General FE Model Overview; 4.2 Analysis of the Strains Resulting from the Cooling Phase of the Polymerisation Cycle; 4.3 Four-Point Bending Test; 4.4 FE Analysis of a Multi-instrumented Technological Evaluator; 5 Conclusions; References; Selection of Optimal Aluminum-Based Composite Produced by Powder Metallurgy Process in Uncertain Environment; 1 Introduction.
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Application of Atomic Force Microscopy to Study Metal-Organic Frameworks Materials and Composites1 Introduction; 2 Metal-Organic Framework; 2.1 Design of MOFs; 2.2 Synthetic Approaches of MOF Materials; 3 MOF Composites; 3.1 MOF Composites; 3.2 Application; 4 Atomic Force Microscopy Application; References; Variability in Monolithic Composite Parts: From Data Collection to FE Analysis; 1 Introduction; 2 Challenges in the Characterisation of the Variability at Different Scales of a Composite Structure; 2.1 Overview; 2.2 Obtaining the Property Variations from Real Composite Parts.
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SUMMARY OR ABSTRACT
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This book presents a collection of chapters on various aspects of futuristic composite materials, from manufacturing challenges to materials characterization. The book covers the scientific basis of processing and synthesizing futuristic composites, including the prerequisite theoretical background and latest fabrication techniques. The book also discusses industrial applications of composites, such as in aerospace, automotive, and sports equipment. This book will serve as a valuable guide for researchers and professionals working in the area of futuristic lightweight materials.