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I. FUNDAMENTALS
1. Trend of Micro-Mechatronics and Computer Simulation
2. Review of Piezoelectricity & Magnetostriction
2.1 Piezoelectric Materials: Overview 2.2 Magnetostrictive Materials 2.2 Mathematical Treatment
3. Structures of Smart Transducers
3.1 Multilayer 3.2 Bimorph/Ringmorph/Cymbal 3.3 Magnetostrictive Actuator 3.4 Ultrasonic Motor
4. Drive/Control Techniques of Smart Transducers
4.1 Pulse Drive 4.2 Resonance Drive
5. Finite Element Analysis
5.1 Fundamentals of FEA 5.2 Combining with Piezoelectric Equations 5.3 Examples of ATILA Simulation
6. Design Optimization
6.1 Optimization Concept 6.2 Genetic Optimization 6.3 Case Studies
7. Future of the FEM in Smart Structures
II. HOW TO USE ATILA
0.1 ATILA Download 0.2 Simulation Process
1. Piezoelectric Plate
1.1 Rectangular Plate 1.2 Circular Disk
2. Magnetostrictive Rod
3. Composite Structure
3.1 Bimorph 3.2 Unimorph 3.3 Multilayer 3.4 Cymbal
4. Piezoelectric Transformer
4.1 Rosen Type 4.2 Ring-Dot Type
5. Ultrasonic Motor
5.1 L-Shape Motor 5.2 p-Shape Motor 5.3 Metal-Tube Motor
6. Underwater Transducer
6.1 Langevin Type 6.2 Underwater Cymbal 6.3 Tonpilz Sonar
7. Acoustic Lens
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