E-Book, Englisch, 304 Seiten, E-Book
Pons Emerging Actuator Technologies
1. Auflage 2005
ISBN: 978-0-470-09198-2
Verlag: John Wiley & Sons
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
A Micromechatronic Approach
E-Book, Englisch, 304 Seiten, E-Book
ISBN: 978-0-470-09198-2
Verlag: John Wiley & Sons
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
Actuators are devices that convert electrical energy intomechanical work, traditionally used in electrical, pneumatic andhydraulic systems. As the demand for actuator technologies grows inbiomedical, prosthetic and orthotic applications, there is anincreasing need for complex and sophisticated products that performefficiently also when scaled to micro and nano domains.
Providing a comprehensive overview of actuators for novelapplications, this excellent book:
* Presents a mechatronic approach to the design, control andintegration of a range of technologies covering piezoelectricactuators, shape memory actuators, electro-active polymers,magnetostrictive actuators and electro- and magnetorheologicalactuators.
* Examines the characteristics and performance of emergingactuators upon scaling to micro and nano domains.
* Assesses the relative merits of each actuator technology andoutlines prospective application fields.
Offering a detailed analysis on current advances in the field, thispublication will appeal to practising electrical and electronicsengineers developing novel actuator systems. Mechanical andautomation engineers, computer scientists and researchers will alsofind this a useful resource.
Autoren/Hrsg.
Weitere Infos & Material
Foreword.
Preface.
List of Figures.
List of Tables.
1 Actuators in motion control systems: mechatronics.
1.1 What is an actuator?
1.2 Transducing materials as a basis for actuator design.
1.3 The role of the actuator in a control system: sensing,processing and acting.
1.4 What is mechatronics? Principles and biomimesis.
1.5 Concomitant actuation and sensing: smart structures.
1.6 Figures of merit of actuator technologies.
1.7 A classification of actuator technologies.
1.8 Emerging versus traditional actuator technologies.
1.9 Scope of the book: emerging actuators.
1.10 Other actuator technologies.
2 Piezoelectric actuators.
2.1 Piezoelectricity and piezoelectric materials.
2.2 Constitutive equations of piezoelectric materials.
2.3 Resonant piezoelectric actuators.
2.4 Nonresonant piezoelectric actuators.7
2.5 Control aspects of piezoelectric motors.
2.6 Figures of merit of piezoelectric actuators.
2.7 Applications.
3 Shape Memory Actuators (SMAs).
3.1 Shape memory alloys.
3.2 Design of shape memory actuators.
3.3 Control of SMAs.
3.4 Figures of merit of shape memory actuators.
3.5 Applications.
4 Electroactive polymer actuators (EAPs).
4.1 Principles.
4.2 Design issues.
4.3 Control of EAPs.
4.4 Figures of merit of EAPs.
4.5 Applications.
5 Magnetostrictive actuators (MSs).
5.1 Principles of magnetostriction.
5.2 Magnetostrictive materials: giant magnetostriction.
5.3 Design of magnetostrictive actuators.
5.4 Control of magnetostrictive actuators: vibrationabsorption.
5.5 Figures of merit of MS actuators.
5.6 Applications.
6 Electro- and magnetorheological actuators (ERFs,MRFs).
6.1 Active rheology: transducing materials.
6.2 Mechatronic design concepts.
6.3 Control of ERF and MRF.
6.4 Figures of merit of ER and MR devices.
6.5 Applications.
7 Summary, conclusions and outlook.
7.1 Brief summary.
7.2 Comparative position of emerging actuators.
7.3 Research trends and application trends.
Bibliography.
Index.
