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The first contemporary text specializing on the dynamic problems of piezoelectric crystal plates for resonant acoustic wave devices (such as resonators, filters, and sensors) since H F Tiersten's publication in 1969. This book provides an up-to-date, systematic and comprehensive presentation of theoretical results on waves and vibrations in quartz crystal plates. It expounds on the application of the theories of elasticity and piezoelectricity in acoustic wave devices made from crystal plates through a coverage spanning from classical results on acoustic wave resonators, up to present-day appl

Piezoelectric devices. --- Piezoelectricity. --- Plates (Engineering) --- Quartz crystals --- Piezo-electricity --- Piezoelectric effect --- Pyro- and piezo-electricity --- Crystallography --- Electricity --- Pyroelectricity --- Dielectric devices --- Ferroelectric devices --- Vibration. --- Electric properties.

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This monograph deals with buckling and postbuckling behavior of thin plates and thin-walled structures with flat wall subjected to static and dynamic load. The investigations are carried out in elastic range. The basic assumption here is the  thin plate theory. This method is used to determination the buckling load and postbuckling analysis of thin-walled structures subjected to static and dynamic load. The book introduces two methods for static and dynamic buckling investigation which allow for a wider understanding of the phenomenon. Two different methods also can allow uncoupling of the phenomena occurring at the same time and attempt to estimate their impact on the final result. A general mathematical model, adopted in proposed analytical-numerical method, enables the consideration of all types of stability loss i.e.local, global and interactive forms of buckling. The applied numerical-numerical method includes adjacent of walls, shear-lag phenomenon and a deplanation of cross-sections.

Buckling (Mechanics). --- Computer science. --- Engineering. --- Materials. --- Thin-walled structures. --- Buckling (Mechanics) --- Structural stability --- Plates (Engineering) --- Thin-walled structures --- Structural analysis (Engineering) --- Engineering & Applied Sciences --- Chemical & Materials Engineering --- Applied Mathematics --- Materials Science --- Structural stability. --- Architectural engineering --- Engineering, Architectural --- Structural mechanics --- Structures, Theory of --- Structures, Thin-walled --- Disks (Mechanics) --- Panels --- Structural plates --- Stability of structures --- Structures, Stability of --- Computer mathematics. --- Continuum mechanics. --- Continuum Mechanics and Mechanics of Materials. --- Computational Science and Engineering. --- Girders --- Structural engineering --- Elastic plates and shells --- Shells (Engineering) --- Stability --- Safety factor in engineering --- Structural failures --- Deformations (Mechanics) --- Plasticity --- Strains and stresses --- Mechanics. --- Mechanics, Applied. --- Solid Mechanics. --- Informatics --- Science --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory --- Computer mathematics --- Electronic data processing --- Mathematics