Handbook of Microscopy Applications in Materials Science, Solid-State Physics and Chemistry Edited by S. Amelinckx, D. van Dyck, J. van Landuyt, G. van Tendeloo Comprehensive in coverage, written and edited by leading experts in the field, this Handbook is a definitive, up-to-date reference work. The Volumes Methods I and Methods II detail the physico-chemical basis and capabilities of the various microscopy techniques used in materials science. The Volume Applications illustrates the results obtained by all available methods for the main classes of materials, showing which technique can be successfully applied to a given material in order to obtain the desired information. With the Handbook of Microscopy, scientists and engineers involved in materials characterization will be in a position to answer two key questions: qHow does a given technique work?, q and qWhich technique is suitable for characterizing a given material?q From the Contents: Classes of Materials: Metals and Alloys, Rocks and Minerals, Semiconductors and Semiconducting Devices, Opto-electronic Materials, Ferroic Materials, Structural Ceramics, Gemmological Applications. Superconductors: Intermetallics and Ceramics, Nonperiodic Structures, Dental and Biomaterials, Application of TEM and SAED, Different Forms of Carbon, Composite Structural Materials, Polymers, Nuclear Materials, Magnetic Materials. Special Topics: Phase Transformations, Specimen Preparation Techniques, Environmental Problems, Thin Film Growth, Quantitative Hyleography.R. M. Anderson in Technical Manual. Tripod [113 Polisher, South Bay ... Ultramicroscopv 1978, 21. 327.  A. Barna in Workshop on TEM Specimen [ 134] Preparation 800 Preparation Techniques for Transmission Electron Microscopy.
|Title||:||Handbook of Microscopy: Applications|
|Publisher||:||Wiley-VCH - 1997|