دانلود کتاب Machining and Additive Manufacturing: Select Proceedings of CPIE 2023 (Lecture Notes in Mechanical Engineering)

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Preface
Acknowledgments
Contents
About the Editors
Assessment of Sustainable Additive Manufacturing Drivers: A MCDM Approach
1 Introduction
2 Methodology
2.1 Best Worst Method (BWM)
3 Results and Discussions
3.1 Economic Drivers
3.2 Environmental Drivers
3.3 Social Drivers
3.4 Consistency Ratio
4 Conclusions
References
Exploring Sustainable Manufacturing: A Comprehensive Review of Literature and Practices
1 Introduction
2 Sustainable Manufacturing Practice
3 Sustainable Supply Chain Management (SSCM) and Manufacturing Practice in Business Performance
4 Sustainable Manufacturing Practice: Challenges and Future Trend
5 Conclusion
6 Future Scope
References
Performance Analysis of 3D Printed Impellers for Portable Vacuum Cleaner
1 Introduction
2 Literature Review
2.1 Problem Formulation
3 Methodology
4 3D Printed VC at a Glance
5 Designing of Impeller
6 Setting up Experiment
6.1 Experimental Analysis
6.2 AHP Analysis
7 Conclusion
References
3D Printed Electronics: Role of Materials and Processes
1 Introduction
2 Techniques for Printed Electronics
2.1 Conventional Techniques for Printed Electronics
2.2 Screen Printing
2.3 3D Printing Techniques for Printed Electronics
2.4 Material Extrusion-Based Printing
2.5 Vapor-Based Printing
2.6 Material Jetting-Based Printing
2.7 Inkjet Printing
2.8 Aerosol Jet Printing
3 Material for 3D Printed Electronics
3.1 Conductive Polymer Filaments
3.2 Semiconductors
3.3 Dielectric
3.4 Metallic Nanoparticle
3.5 Carbon Nanotubes and Graphene
4 Applications of 3D Printed Electronics
4.1 Stretchable Electronics
4.2 Radio Frequency Antenna
4.3 3D Structural Electronics
5 Conclusions
References
Electrochemical Micromachining: A Review on Principles, Processes, and Applications
1 Introduction
2 Principle of Material Removal
3 Literature Review
4 Future Scope and Research Aspects for Research in ECMM
5 Conclusion
References
Friction and Wear Characteristics of Engine Oil Through Four-Ball Tester
1 Introduction
2 Experiment
2.1 Test Lubricants
2.2 Apparatus
3 Results and Discussion
4 Conclusion
References
Recent Trends in 4th Industrial Revolution for A Sustainable Future–A Review
1 Introduction
2 Industry 4.0 Technologies
2.1 Big Data and Data Analytics
2.2 The Internet of Things (IoT)
2.3 The Cloud
2.4 Autonomous Robots
2.5 Augmented Reality
2.6 Cyber Security
2.7 3D Printing
2.8 Simulation
3 Opportunities, Issues, and Challenges in Industry 4.0
4 Conclusion and Future Work
References
AI Control of EMG Sensor Data for 3D Printed Prosthesis Hand
1 Introduction
2 EMG Sensor
2.1 Myoelectric Hand
2.2 Postures and Muscle Locations
2.3 EMG in Prostheses
3 Artificial Intelligence
3.1 Machine Learning
3.2 Supervised Machine Learning
3.3 Unsupervised Machine Learning
3.4 Neural Networks
3.5 Deep Learning
4 AI in Prosthetics
5 Conclusions
References
Methodology of Rapid Prototyping and Moulding of Net-Shaped Micro-structures Developed Using Lifting Plate Hele-Shaw Flow on Conical Surfaces
1 Introduction
2 Experimentation
2.1 Fractal Formation Methodology
2.2 Conical Plates
2.3 Moulding Methodology
3 Results and Discussions
3.1 Fractal Formation
3.2 Mould Formation
4 Conclusions
References
A Comprehensive Overview on Additive Manufacturing Processes: Materials, Applications, and Challenges
1 Introduction
2 Additive Manufacturing Processes
2.1 Extrusion-Based Process
2.2 Powder Bed Fusion Process
2.3 Photopolymerization Process
3 AM Materials for 3D Printing
3.1 Metals and Alloys
3.2 Composite Materials
3.3 Biomaterials
4 Applications and Challenges in Additive Manufacturing
4.1 Applications of Additive Manufacturing
4.2 Challenges in Additive Manufacturing
5 Conclusion
6 Future Scope
References
An Overview of the Untapped Potential of Soft Robotic Arms with Integration of Machining Tools
1 Introduction
1.1 Soft Actuators and Sensors
1.2 Benefits and Constrains of Soft Robots
2 Present Scenario of Soft Robotic Arms
3 The Untapped Potential of Soft Robotic Arms
4 Conclusions
References
Life Cycle Assessment of Abrasive Flow Machining of 3D Printed Parts: A Comparative Analysis
1 Introduction
2 Experimentation
2.1 Experimental Setup
2.2 Abrasive Media
2.3 Life Cycle Assessment (LCA)
3 Results and Discussions
3.1 Effect of AFM Processes on Environmental Indicators
3.2 Comparison of Environmental Emissions
3.3 Comparison of Environmental Indicators
3.4 Effect of AFM Processes on Human Health, Ecosystems, and Resources
4 Conclusions
References
Modelling and Simulation of Wire DED Additive Manufacturing Process
1 Introduction
2 Methodology
3 Numerical Simulation
3.1 Modeling
3.2 Heat Source Model
3.3 Simulation
4 Conclusions
References
An Overview of the Recent Advances in Additive Manufacturing, and Its Scope for the Benefit of Research and Development in Commercial Vehicle Industries
1 Introduction
2 Am in Commercial Vehicle Industries
2.1 Overview
2.2 Material Availability—Metals
2.3 Material Availability—Plastics
2.4 Comparing Polymer and Metal Additive Manufacturing
3 Am in Research and Development
4 Research Gap
5 Conclusions
References
Design and Development of Customized Helmet for Military Personnel
1 Introduction
1.1 Traumatic Brain Injury
1.2 Materials Used in the Manufacture of Military Helmets
1.3 Types of Helmets
2 Methodology
2.1 3D Scanning of Human Head Using Photogrammetry Method
2.2 Modelling of Helmet
3 Results and Discussions
4 Conclusions
References
Additive Manufacturing and Sustainability: The Mediating Role of Supply Chain
1 Introduction
2 Additive Manufacturing and Supply Chain
3 Additive Manufacturing for Sustainable Business Models
3.1 Economic Implications of Additive Manufacturing
3.2 Technological Implications of Additive Manufacturing
4 Proposed Additive Manufacturing Supply Chain Framework for Sustainability
4.1 Additive Manufacturing Strategy
4.2 Organizational Change
4.3 Additive Manufacturing Production Planning
4.4 Additive Manufacturing Supply Chain
4.5 Challenges to the Sustainability of Additive Manufacturing Supply Chain
5 Conclusion and Future Research Directions
References
Leverage of Metal 3D Printing Technology in the Automotive Industry
1 Introduction
2 Metal 3D Printing Technologies
2.1 Directed Energy Deposition (DED)
2.2 Electron Beam Melting (EBM)
2.3 Binder Jetting
2.4 Powder Bed Fusion (PBF)
2.5 Sheet Lamination
3 Materials Used in Metal 3D Printing Technology
3.1 Aluminum
3.2 Steel
3.3 Titanium
3.4 Nickel Alloys
3.5 Copper
3.6 Cobalt-Chrome
4 Applications of Metal 3D Printing Technology in the Automotive Industry
4.1 Engine Components
4.2 Suspension Parts
4.3 Exhaust Systems
4.4 Body Parts
5 Benefits of Metal 3D Printing Technology in the Automotive Industry
5.1 Customization
5.2 Lightweight Components
5.3 Cost Efficiency
5.4 Complex Geometries
5.5 Environmentally Friendly
6 Challenges of Metal 3D Printing Technology in the Automotive Industry
6.1 High Cost
6.2 Lack of Standardization
6.3 Limited Material Options
6.4 Post-Processing Requirements
6.5 Quality Control
7 Future Scope of Metal 3D Printing in the Automotive Industry
8 Conclusions
References
Digital Twins of Hybrid Additive and Subtractive Manufacturing Systems–A Review
1 Overview of Digital Twins and Hybrid Manufacturing Systems
1.1 Digital Twins for Manufacturing Systems
1.2 Hybrid Additive and Subtractive Manufacturing Systems
1.3 Combination of Digital Twins and Hybrid Manufacturing Systems
2 Design and Development of Digital Twins for Hybrid Manufacturing Systems
2.1 A Short Review on Open Source and Commercially Available Digital Twin Solutions
2.2 Key Technology Enablers for Digital Twins
2.3 Designing and Developing Digital Twins Using Microsoft Azure Digital Twin Platforms
2.4 Hybrid Additive and Subtractive Manufacturing System Digital Twin Example
2.5 Optimizing the Process Parameters Using Artificial Intelligence Along with Using Real-Time Data Analytics (Microsoft Power Bi) for Condition Monitoring
3 Challenges in the Implementation of Digital Twins for Hybrid Additive and Subtractive Manufacturing Systems
4 Future Scope of Digital Twins for Hybrid Additive and Subtractive Systems
References