NEW Solutions Manual: Nanoengineering of Structural, Functional and Smart Materials
A new 103-page Solutions Manual is now available for Nanoengineering of Structural, Functional and Smart Materials. The new Solutions Manual is a valuable companion to the volume’s wide-ranging look at nanomaterials research from 24 nanotechnology labs. The manual covers synthesis, modeling, and manufacturing techniques to improve material properties, such as durability, multi-functionality, self-monitoring, and adaptability. It also examines nanofabrication of sensors, devices, nanotubes and nanocoatings.
The Nanoengineering of Structural, Functional and Smart Materials solutions manual also covers nanostructured electro-mechanical actuators, functions to prevent degradation and failure of structures, and commercial applications of nanoengineered smart materials, such as nanocoatings and functionalized nanotubes.
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Solutions were prepared by the chapter authors or other volunteers, and are based on the current state of knowledge in the field. As the field of nanotechnology matures, some solutions and approaches may be replaced by better solutions and approaches. In fact, it is hoped that this book can serve as a reference for the current state of the art and to allow researcher to improve upon existing technology. Improvements in materials processing are especially needed in areas such as dispersing nanotubes, spinning fibers, electrical properties, control of synthesis, and on. We hope that you find the nanoengineering book and the accompanying solution manual useful. We appreciate any comments to improve the book and solution manual. Some suggestions on using the book to teach nanotechnology are given below.
The Solution Manual is meant for use by instructors that are using Nanoengineering of Structural, Functional and Smart Materials for teaching, and for other professionals such as engineers and scientists who would use the solutions for reference. It is hoped that this 103-page solution manual will be a helpful starting point to develop many more problems sets that can provide and test understanding of nanotechnology concepts. The authors should especially be thanked for contributing chapters with the problems and solutions. Some of the chapter problem sets are very detailed, and provide a great resource for quickly learning the basics of these subject areas of nanotechnology. Reading the chapters and studying the solutions can save a tremendous amount of work that would be required to survey the literature to provide an equivalent understanding of the subject.