Digital Micromirror Micro-engine MECHANICAL ENGINEERING 381 Introduction to Micro-Electro-Mechanical System (MEMS) Prof. Horacio D. Espinosa * Fall 2002 Time: TTh 2:00-3:20 MEMS is an emerging technology that is attracting significant attention in the engineering, chemistry and biology communities. The NSF (National Science Foundation) and NIH (National Institute of Health) consider MEMS one of the main research areas of the decade. MEMS were successfully utilized in breakthrough applications, such as accelerometers for air bag deployment in automobiles, and digital mirrors for high- resolution display. What will you learn in this class? • Microfabrication techniques • Thin film material properties (constitutive laws and size effects) • Mechanical behavior of microstructures • Sensing and actuation of mechanical, optical, microfluidic devices • Case studies: accelerometers, RF-switches, micro-engines, digital mirrors, and fluidic systems Homework will be assigned on a regular basis. There is a mid-term exam and final project. No prerequisite. * Email: [email protected], Tel: 7- 5989, Office: L286

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MECHANICAL ENGINEERING 381. Introduction to Micro-Electro-Mechanical System (MEMS). Prof. Horacio D. Espinosa *. Fall 2002Time: TTh 2:00-3:20. - PowerPoint PPT Presentation

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Digital Micromirror

Micro-engine

MECHANICAL ENGINEERING 381

Introduction to Micro-Electro-Mechanical System (MEMS) Prof. Horacio D. Espinosa *

Fall 2002 Time: TTh 2:00-3:20

MEMS is an emerging technology that is attracting significant attention in the engineering, chemistry and biology communities. The NSF (National Science Foundation) and NIH (National Institute of Health) consider MEMS one of the main research areas of the decade. MEMS were successfully utilized in breakthrough applications, such as accelerometers for air bag deployment in automobiles, and digital mirrors for high-resolution display.

What will you learn in this class?

• Microfabrication techniques

• Thin film material properties (constitutive laws and size effects)

• Mechanical behavior of microstructures

• Sensing and actuation of mechanical, optical, microfluidic devices

• Case studies: accelerometers, RF-switches, micro-engines, digital mirrors, and fluidic systems

Homework will be assigned on a regular basis. There is a mid-term exam and final project. No prerequisite.

* Email: [email protected], Tel: 7-5989, Office: L286

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