Modern Machining Technology A Practical Guide 1st edition by Paulo Davim, Paulo Davim ISBN 0857090992 978-0857090997

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ISBN 10: 0857090992
ISBN 13: 978-0857090997
Author:  Paulo Davim, Paulo Davim 

This forward-thinking, practical book provides essential information on modern machining technology for industry with emphasis on the processes used regularly across several major industries. Machining technology presents great interest for many important industries including automotive, aeronautics, aerospace, renewable energy, moulds and dies, biomedical, and many others. Machining processes are manufacturing processes in which parts are shaped by the removal of unwanted material; these processes cover several stages and are usually divided into the following categories: cutting (involving single point or multipoint cutting tools); abrasive processes (including grinding and advanced machining processes, such as EDM (electrical discharge machining), LBM (laser-beam machining), AWJM (abrasive water jet machining) and USM (ultrasonic machining).

• Provides essential information on modern machining technology, with emphasis on the processes used regularly across several major industries
• Covers several processes and outlines their many stages
• Contributions come from a series of international, highly knowledgeable and well-respected experts

Modern Machining Technology: A Practical Guide 1st Table of contents:

• Introduction to Machining Technology 1.1. Overview of Machining Processes
  1.2. History and Evolution of Machining
  1.3. Key Machining Operations and Their Applications
  1.4. Importance of Precision and Tolerances in Machining
  1.5. Modern Trends in Machining Technology

• Chapter 1: Basic Machining Processes 2.1. Turning
  2.2. Milling
  2.3. Drilling
  2.4. Grinding
  2.5. Electrical Discharge Machining (EDM)
  2.6. Laser Machining
  2.7. Water Jet Cutting

• Chapter 2: Advanced Machining Technologies 3.1. CNC Machining and Automation
  3.2. Additive Manufacturing and 3D Printing
  3.3. High-Efficiency Machining
  3.4. Hybrid Machining Processes
  3.5. Ultrasonic Machining
  3.6. Electrochemical Machining (ECM)

• Chapter 3: Cutting Tools and Tool Materials 4.1. Types of Cutting Tools
  4.2. Tool Materials and Their Properties
  4.3. Tool Wear and Tool Life
  4.4. Coatings and Surface Treatments
  4.5. Selection Criteria for Cutting Tools

• Chapter 4: Machining of Different Materials 5.1. Machining of Metals (Steel, Aluminum, Titanium)
  5.2. Machining of Non-Metals (Plastics, Composites)
  5.3. Machining Difficult-to-Cut Materials
  5.4. Material Removal Rate (MRR)
  5.5. Case Studies in Material-Specific Machining

• Chapter 5: Machining Process Optimization 6.1. Speed, Feed, and Depth of Cut Optimization
  6.2. Cooling and Lubrication in Machining
  6.3. Surface Finish and Dimensional Accuracy
  6.4. Process Control and Monitoring
  6.5. Lean Manufacturing and Machining Efficiency

• Chapter 6: Precision and Tolerance in Machining 7.1. Dimensional Accuracy and Tolerances
  7.2. Measurement Techniques in Machining
  7.3. Coordinate Measuring Machines (CMM)
  7.4. Geometric Dimensioning and Tolerancing (GD&T)
  7.5. Achieving Precision in High-Volume Production

• Chapter 7: Automation in Machining 8.1. The Role of Robotics in Machining
  8.2. Integration of CNC and Robotics
  8.3. Industrial Automation in Manufacturing
  8.4. Machine Vision and Sensing in Machining
  8.5. Future Trends in Automation for Machining

• Chapter 8: Quality Control and Inspection in Machining 9.1. Quality Control Principles
  9.2. In-Process Inspection Techniques
  9.3. Post-Machining Inspection and Testing
  9.4. Statistical Process Control (SPC) in Machining
  9.5. Certification and Standards in Manufacturing

• Chapter 9: Sustainability and Environmental Considerations in Machining 10.1. Environmental Impact of Machining Processes
  10.2. Sustainable Manufacturing Practices
  10.3. Waste Management and Recycling in Machining
  10.4. Energy Efficiency in Machining Operations
  10.5. Regulatory Compliance and Green Manufacturing

• Chapter 10: Case Studies in Modern Machining 11.1. Aerospace Industry Machining
  11.2. Automotive Industry Machining
  11.3. Medical Device Manufacturing
  11.4. Electronics and Micro Machining
  11.5. Challenges and Solutions in Modern Machining

• Conclusion: The Future of Machining Technology 12.1. Emerging Technologies in Machining
  12.2. The Role of Artificial Intelligence in Machining
  12.3. The Evolution of Smart Manufacturing Systems
  12.4. Skills and Training for the Future Workforce
  12.5. Conclusion and Key Takeaways

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