[内容简介]
The rapid progress in fabricating and utilizing microelectromechanical (MEMS) systems during the last decade is not matched by corresponding understanding of the unconventional fluid flow involved in the operation and manufacture of these small devices. Providing such understanding is crucial to designing, optimizing, fabricating and operating improved MEMS devices. Microfluid Mechanics: Principles and Modeling is a rigorous reference that begins with the fundamental principles governing microfluid mechanics and progresses to more complex mathematical models, which will allow research engineers to better measure and predict reactions of gaseous and liquids in microenvironments.
[目次]
Contents: Chapter 1: Introduction. Chapter 2: Basic Kinetic Theory. Chapter 3: Microfluid Properties. Chapter 4: Moment Method: Navier-Stokes and Burnett Equations. Chapter 5: Statistical Method: Direct Simulations Monte Carlo Method. Chapter 6: Parallel Computing of DSMC. Chapter 7: Fluid/Solid Interface Mechanisms. Chapter 8: Development of Hybrid Continuum/Particle Method. Chapter 9: Low-Speed Microflows. Chapter 10: High-Speed Microflows. Chapter 11: Perturbation in Microflows. Chapter 12: Current Applications of Microflows and Future Simulation Models.