Osiander R., Darrin M.A.G., Champion J.L. MEMS and Microstructures in Aerospace Applications

CRC Press, Taylor & Francis Group, 2006. VIII, 367 p. — ISBN: 0-8247-2637-5.
Features.
Provides the first reference dedicated to employing MEMS in aerospace applications.
Presents demonstrations of MEMS in past and current applications while looking ahead to future applications.
Reviews the physical phenomena that dominate at the small scale along with micromachining and material properties.
Explores the development of nanosats and picosats that rely on MEMS as well as other MEMS-based spacecraft.
Examines in detail the reliability issues of fatigue, friction, and electrostatic stiction in addition to environmental factors present during storage and launch.The promise of MEMS for aerospace applications has been germinating for years, and current advances bring the field to the very cusp of fruition. Reliability is chief among the challenges limiting the deployment of MEMS technologies in space, as the requirement of zero failure during the mission is quite stringent for this burgeoning field. MEMS and Microstructures in Aerospace Applications provides all the necessary tools to overcome these obstacles and take MEMS from the lab bench to beyond the exosphere.
The book begins with an overview of MEMS development and provides several demonstrations of past and current examples of MEMS in space. From this platform, the discussion builds to fabrication technologies; the effect of space environmental factors on MEMS devices; and micro technologies for space systems, instrumentation, communications, thermal control, guidance navigation and control, and propulsion. Subsequent chapters explore factors common to all of the described systems, such as MEMS packaging, handling and contamination control, material selection for specific applications, reliability practices for design and application, and assurance practices.
Edited and contributed by an outstanding team of leading experts from industry, academia, and national laboratories, MEMS and Microstructures in Aerospace Applications illuminates the path toward qualifying and integrating MEMS devices and instruments into future space missions and developing innovative satellite systems.Overview of Microelectromechanical Systems and Microstructures in Aerospace Applications.
Robert Osiander and M. Ann Garrison Darrin.
Vision for Microtechnology Space Missions.
Cornelius J. Dennehy.
MEMS Fabrication.
James J. Allen.
Impact of Space Environmental Factors on Microtechnologies.
M. Ann Garrison Darrin.
Space Radiation Effects and Microelectromechanical Systems.
Stephen P. Buchner.
Microtechnologies for Space Systems.
Thomas George and Robert Powers.
Microtechnologies for Science Instrumentation Applications.
Brian Jamieson and Robert Osiander.
Microelectromechanical Systems for Spacecraft Communications.
Bradley Gilbert Boone and Samara Firebaugh.
Microsystems in Spacecraft Thermal Control.
Theodore D. Swanson and Philip T. Chen.
Microsystems in Spacecraft Guidance, Navigation, and Control.
Cornelius J. Dennehy and Robert Osiander.
Micropropulsion Technologies.
Jochen Schein.
MEMS Packaging for Space Applications.
R. David Gerke and Danielle M. Wesolek.
Handling and Contamination Control Considerations for Critical Space Applications.
Philip T. Chen and R. David Gerke.
Material Selection for Applications of MEMS.
Keith J. Rebello.
Reliability Practices for Design and Application of Space-Based MEMS.
Robert Osiander and M. Ann Garrison Darrin.
Assurance Practices for Microelectromechanical Systems and Microstructures in Aerospace.
M. Ann Garrison Darrin and Dawnielle Farrar.