Mechatronics and manufacturing engineering : research and development

This book, the first in the Woodhead Publishing Reviews: Mechanical Engineering Series, is a collection of high quality articles (full research articles, review articles and cases studies) with a special emphasis on research and development in mechatronics and manufacturing engineering. Mechatronics is the blending of mechanical, electronic, and computer engineering into an integrated design. Today, mechatronics has a significant and increasing impact on engineering with emphasis on the design, development and operation of manufacturing engineering systems. The main objective of this interdisciplinary engineering field is the study of automata from an engineering perspective, thinking on the design of products and manufacturing processes and systems. Mechatronics and manufacturing systems are well established and executed within a great number of industries including aircraft, automotive and aerospace industries; machine tools, moulds and dies product manufacturing, computers, electronics, semiconductor and communications, and biomedical.

List of figures List of tables Preface About the contributors Chapter 1: Implementation of light-scattering instrumentation: innovation, design and development Abstract: Glossary 1.1 Introduction 1.2 Application and need 1.3 Innovation 1.3.1 Innovation strategies 1.4 Do the right thing 1.5 Funding 1.6 The prototype 1.7 How to keep ahead of the competition - design in saleability! 1.8 The evolutionary history of the NS4910 protein aggregation monitor (PAM) 1.9 Conclusions 1.11 Acknowledgements Chapter 2: Planar micromanipulation on microconveyor platforms: recent developments Abstract: 2.1 Introduction 2.2 Microconveyor platforms for micromanipulation 2.3 Manipulation of parts on microconveyor platforms: an integrated approach for programmable force field design and platform programming 2.4 Future research directions and conclusions Chapter 3: Single-axis arm designed with an ultrasonic motor: basic active/passive joint torque control Abstract: 3.1 Introduction 3.2 Single-axis arm designed with an ultrasonic motor 3.3 Control system 3.4 Example of application 3.5 Conclusions Chapter 4: Signal processing for tool condition monitoring: from wavelet analysis to sparse decomposition Abstract: 4.1 Overview of tool condition monitoring and signal processing issues 4.2 Signal space, linear system and Fourier transform 4.3 Wavelet analysis 4.4 Sparse coding 4.5 Applications 4.6 Conclusions Chapter 5: ANN modelling of fractal dimension in machining Abstract: 5.1 Introduction 5.2 Basic considerations 5.3 CNC end milling 5.4 CNC turning 5.5 Cylindrical grinding 5.6 Electrical discharge machining 5.7 Conclusion Chapter 6: Predicting forces and damage in drilling of polymer composites: soft computing techniques Abstract: 6.1 Drilling of polymer composites 6.2 Soft computing techniques Chapter 7: Minimising burr size in drilling: integrating response surface methodology with particle swarm optimisation Abstract: 7.1 Introduction 7.2 Response surface methodology 7.3 Particle swarm optimisation 7.4 Experimental details 7.5 Results and discussion 7.6 Conclusions Chapter 8: Single-point incremental forming of polymers Abstract: 8.1 Introduction 8.2 Theoretical framework 8.3 Experimental background 8.4 Results and discussion 8.5 Conclusions 8.6 Acknowledgment Index