Micro/Nano mechatronics is currently used in broader spectra, ranging from basic applications in robotics, actuators, sensors, semiconductors, automobiles, and machine tools. As a strategic technology highlighting the 21st Century, this technology is extended to new applications in bio-medical systems and life science, construction machines, and aerospace equipment, welfare/human life engineering, and other brand new scopes. Basically, the miniaturizing technology is important to realize high performance, low energy consumption, low cost performance, small space instrumentation, light-weight, and so on. The text Micro-Nano Mechatronics New Trends describes the research advances in micro/nano measurement and control, micro/nano design and manufacturing, nano materials science, and their applications in biomedical engineering. First chapter presents the simulation based mechatronic model of a complex system with a better understanding of the dynamic behavior and interactions of the components. The main typologies of air vehicle systems used for micro- and nano-air vehicles have been discussed in second chapter. Third chapter considers the analytical dynamics with simplified Dahl hysteresis model for a three-axis piezoactuated micro/ nano flexure stage. Fourth chapter performs the necessary survey and investigation about the work conditions of robotics and automation equipment in the oil and gas industry, especially offshore oil rigs. In fifth chapter, we discuss on micro/nano-mechanical sensors and actuators based on SOI-MEMS technology. New trends in non-destructive evaluation of surface hardened layers and coatings have been discussed in sixth chapter.Seventh chapter proposes an adaptive proportion-integral-based sliding mode control design used for nanopositioning of piezoelectric actuators. The purpose of eighth chapter is to investigate a ruptured aneurysm in the ophthalmic artery by performing five-year follow-up. In ninth chapter, a novel rail-guided micro-robot-team system has been proposed for the micro-assembly of a cellular structure. Tenth chapter presents a new method for the simulation of complex fabrication processes involving anisotropic etching of silicon in micro electro mechanical systems. Eleventh chapter discusses how directed self-assembly as a technique has grown up and outlines its future prospects. Twelfth chapter presents a review of progress and developments in the field of single cell mechanical properties specifically discussing on stiffness characterizations. In thirteenth chapter, we present a mechanical semi-active heave compensation system of drill string used for the floating drilling platform. Fourteenth chapter presents a chronological overview of gripping force measurement using two-fingered micromanipulation systems. Fifteenth chapter discusses how to improve the use of robotic welding of aluminum boats through modularization. Characterization and inspection of micro-nano materials have been proposed in sixteenth chapter. Seventeenth chapter reports the hybrid nanowire growth via field emission, using two precursors and nanorobotic manipulation inside FESEM. Liquid encapsulation technology for microelectromechanical systems has been focused in last chapter.
以下为对购买帮助不大的评价