Handbook of Manufacturing Engineering and Technology

The Springer Reference Work Handbook of Manufacturing Engineering and Technology provides overviews and in-depth and authoritative analyses on the basic and cutting-edge manufacturing technologies and sciences across a broad spectrum of areas. These topics are commonly encountered in industries as w...

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Corporate Author: SpringerLink (Online service)
Other Authors: Nee, Andrew Y. C. (Editor, http://id.loc.gov/vocabulary/relators/edt)
Language:English
Published: London : Springer London : Imprint: Springer, 2015.
Edition:1st ed. 2015.
Subjects:
Online Access:https://doi.org/10.1007/978-1-4471-4670-4
Table of Contents:
  • Volume 1: Forming and Joining
  • Section 1: Forming of Polymer and Composite Materials
  • Fundamentals of polymers and polymercomposite
  • Properties and Applications of Polymer Nanocomposites
  • Polymer Surface Treatment and Coating Technologies
  • Polymer Foam Technology
  • Section 2: Metal forming
  • Bulk Metal Forming Processes in Manufacturing
  • Materials in Metal Forming
  • Roll Forming
  • Metal Casting
  • Incremental Metal Forming processes in manufacturing
  • Combined Sheet and bulk forming of high value added components in manufacturing
  • Powder processing of bulk components in manufacturing
  • Section 3: Materials Joining
  • Solid state welding processes in manufacturing
  • Manufacturing process: Arc welding
  • High energy beam welding processes in manufacturing
  • Solid state microjoining processes in manufacturing
  • Process of Nanojoining
  • Solder Joint Technology
  • Adhesive bonding technology
  • Volume 2: Machining and Tolerancing Systems
  • Section 4: Machining
  • Science of Machining
  • Machine tools for machining
  • Machining Dynamics in Manufacturing
  • Machinability of Engineering Materials
  • Machining process monitoring
  • Coolant and lubrication in machining
  • Fixed Abrasive Machining
  • Loose abrasive machining
  • Mechanical Micro-machining
  • Hybrid Machining Process
  • Environmentally friendly machining
  • Simulation and modeling in machining
  • Virtual machining
  • Section 5: Tolerancing system
  • Computer aided angular tolerance charting system: Implementation
  • Volume 3: Nanomanufacturing and Non-Traditional Machining
  • Section 6: Nanomanufacturing using ion beam technology
  • Introduction to Nanomanufacturing Using Ion Beam Technology
  • State-of-the-Art for Nanomanufacturing using Ion Beam Technology
  • Ion Beam Instruments Used for Nanomanufacturing
  • Ion Beam Figuring Technology
  • Focused Ion Beam Nanofabrication Technology
  • Nanometric Cutting of Crystal Surfaces Modified by Ion Implantation
  • Micro Tools Fabrication by Focused Ion Beam technology
  • Nano-gap Electrodes Developed using Focused Ion Beam Technology
  • Plasma-based Nanomanufacturing Under Atmospheric Pressure
  • Section 7: Non-traditional machining processes
  • Electrical Discharge Machining processes
  • Chemical Mechanical Machining process
  • Process of Laser Machining
  • Process of Ultrasonic Machining
  • WaterJet Machining process
  • Process of Biological Machining
  • Volume 4: Robotics and Automation
  • Section 8: Robotics and Automation
  • Rigid-body Motions
  • Manipulator Kinematics
  • Manipulator Velocities and Static Forces
  • Manipulator Dynamics
  • Trajectory Planning
  • Motion Control
  • Force Control
  • Actuation
  • Robot Work Cell Calibration and Error Compensation
  • Grippers and End-effectors
  • Simulation and Offline Programming
  • Parallel Robots
  • Modular Robots
  • Cable-Driven Robots
  • Complaint Manipulators
  • Autonomous In-door Vehicles
  • Robotic Assembly
  • Robotic Welding
  • Robotic Finishing
  • Volume 5: Additive Manufacturing and Surface Technology
  • Section 9: Additive manufacturing
  • Rapid Manufacturing
  • Reverse Engineering for Additive Manufacturing
  • Rapid Prototyping in Manufacturing
  • Rapid Tooling in Manufacturing
  • Micro Prototyping and Fabrication in Manufacturing
  • Micro- And Bio- Rapid Prototyping Using Drop-On-Demand 3D Printing
  • Section 10: Surface technology
  • Foresight of the Surface Technology in Manufacturing
  • Laser Surface Engineering
  • Laser Surface Treatment in Manufacturing
  • Physical Vapor Deposition in Manufacturing
  • Chemical Vapor Deposition in Manufacturing
  • Thermal and Cold Spraying Technology in Manufacturing
  • Electrochemical Processes in Manufacturing
  • Electrochemical Deposition and Characteristics of the Deposits
  • Magnetron sputtering technique
  • ALD: atomic layer deposition – precise and conformal coating for better performance
  • Surface Modification of Semiconductor via Simultaneous Thermal Oxidation and Nitridation Technique
  • Surface Treatments for Magnesium Alloys
  • Thermal Stress Analysis and Characterization of Themo-Mechanical Properties of thin films on an elastic substrate
  • Volume 6: Product Life Cycle and Manufacturing Simulation
  • Section 11: Product life cycle and green manufacturing
  • Remanufacturing and Remaining Useful Life Assessment
  • Product Design for Remanufacturing
  • Product service supply-chain design
  • Product Characteristic Based Method for End-of-Life Product Recovery
  • Use of Embedded Smart Sensors in Products to Facilitate Remanufacturing
  • Pricing Strategies of Remanufacturing Business with Replacement Purchase
  • Diesel engine block remanufacturing: Life cycle assessment
  • Sustainable Value Creation in Manufacturing at Product and Process Levels: Metrics-based Evaluation
  • Data Driven Modeling for Decision Making in Remanufacturing
  • Life Cycle Management of LCD TV – A case study
  • Section 12: Manufacturing simulation and optimization
  • Resource scalability in networked manufacturing system: Social network analysis based approach
  • Improved Intelligent Water Drops Optimization Algorithm for Achieving Single and Multiple Objective Job Shop Scheduling Solutions
  • Process plan and scheduling integration for networked manufacturing using mobile-agent based approach.