Acoustic Wave Sensors: Theory, Design and Physico-Chemical Applications: Applications of Modern Acoustics
Autor D. S. Ballantine Jr., Robert M. White, S. J. Martin, Antonio J. Ricco, E. T. Zellers, G. C. Frye, H. Wohltjen Moises Levy, Richard Sternen Limba Engleză Hardback – 20 oct 1996
- Provides in-depth comparison and analyses of different types of acoustic wave devices
- Discusses operating principles and design considerations
- Includes table of relevant material constants for quick reference
- Presents an extensive review of current uses of these devices for chemical, biochemical, and physical measurements, and engineering applications
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Specificații
ISBN-13: 9780120774609
ISBN-10: 0120774607
Pagini: 436
Ilustrații: 1
Dimensiuni: 152 x 229 x 33 mm
Greutate: 0.81 kg
Editura: ELSEVIER SCIENCE
Seria Applications of Modern Acoustics
ISBN-10: 0120774607
Pagini: 436
Ilustrații: 1
Dimensiuni: 152 x 229 x 33 mm
Greutate: 0.81 kg
Editura: ELSEVIER SCIENCE
Seria Applications of Modern Acoustics
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Public țintă
Applied physicists, specialists in instrumentation, engineers, chemists and material scientists in industry and academia.Standing Order Category:Cuprins
Why Acoustic Sensors. Fundamentals of Acoustic Wave Devices. Acoustic Wave Sensors and Responses. Materials Characterization. Chemical and Biological Sensors. Practical Aspects of Acoustic-Wave Sensors. Subject Index.
Reduced Index Notation. Mechanical Properties of Selected Materials. Piezoelectric Stress Constants. Properties of Several SAW Substrate Materials. Acoustoelectric Properties of Several SAW Substrate Materials. Moduli Associated with the Strain Modes Generated by a SAW in an Acoustically Thin Film. SAW-Film Coupling Parameter and Phase Angles for SAW Propagation in the X-Direction of ST-Cut Quartz. FPW Density Determinations for Low-Viscosity Liquids. Gravimetric Sensitivities of Acoustic Sensors. Qualitative Comparison of Acoustic Sensors. Typical Mass Sensitivities of Acoustic Wave Devices. Classification of Coating-Analyte Interactions and Approximate Energies. Adsorbent Materials and Typical Adsorbates. Adsorption Capacities of Organic Vapors on Activated Charcoal. Examples of Adsorption-Based Acoustic Wave Sensors. Sorption Capacity of Natural Rubber for Several Organic Solvents. Typical Examples of Polymer-Coated Acoustic Wave Sensors. Examples of Biochemical Acoustic Wave Sensors. Cluster Classification of Coatings for Use in a TSM Sensor Array. Center Frequency and Dimensions of Commercial TSM AT-Quartz Resonators. IDT Design Parameters for ST-Quartz-Based SAW Sensor Devices."
Reduced Index Notation. Mechanical Properties of Selected Materials. Piezoelectric Stress Constants. Properties of Several SAW Substrate Materials. Acoustoelectric Properties of Several SAW Substrate Materials. Moduli Associated with the Strain Modes Generated by a SAW in an Acoustically Thin Film. SAW-Film Coupling Parameter and Phase Angles for SAW Propagation in the X-Direction of ST-Cut Quartz. FPW Density Determinations for Low-Viscosity Liquids. Gravimetric Sensitivities of Acoustic Sensors. Qualitative Comparison of Acoustic Sensors. Typical Mass Sensitivities of Acoustic Wave Devices. Classification of Coating-Analyte Interactions and Approximate Energies. Adsorbent Materials and Typical Adsorbates. Adsorption Capacities of Organic Vapors on Activated Charcoal. Examples of Adsorption-Based Acoustic Wave Sensors. Sorption Capacity of Natural Rubber for Several Organic Solvents. Typical Examples of Polymer-Coated Acoustic Wave Sensors. Examples of Biochemical Acoustic Wave Sensors. Cluster Classification of Coatings for Use in a TSM Sensor Array. Center Frequency and Dimensions of Commercial TSM AT-Quartz Resonators. IDT Design Parameters for ST-Quartz-Based SAW Sensor Devices."