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Hochfrequenz Piezo-Composite mikromaschinierter Ultraschallwandler Array: Neu-
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eBay-Artikelnr.:283439558836
Artikelmerkmale
- Artikelzustand
- Publication Date
- 2017-09-12
- Pages
- 104
- ISBN
- 9780791860441
- Subject Area
- Technology & Engineering, Medical
- Publication Name
- High Frequency Piezo-Composite Micromachined Ultrasound Transducer Array Technology for Biomedical Imaging
- Publisher
- American Society of Mechanical Engineers, T.H.E.
- Item Length
- 9 in
- Subject
- Electrical, Diagnostic Imaging / Ultrasonography
- Publication Year
- 2017
- Series
- Biomedical and Nanomedical Technologies-Concise Monograph Ser.
- Type
- Textbook
- Format
- Hardcover
- Language
- English
- Item Width
- 6 in
- Number of Pages
- 108 Pages
Über dieses Produkt
Product Identifiers
Publisher
American Society of Mechanical Engineers, T.H.E.
ISBN-10
0791860442
ISBN-13
9780791860441
eBay Product ID (ePID)
240420959
Product Key Features
Number of Pages
108 Pages
Language
English
Publication Name
High Frequency Piezo-Composite Micromachined Ultrasound Transducer Array Technology for Biomedical Imaging
Publication Year
2017
Subject
Electrical, Diagnostic Imaging / Ultrasonography
Type
Textbook
Subject Area
Technology & Engineering, Medical
Series
Biomedical and Nanomedical Technologies-Concise Monograph Ser.
Format
Hardcover
Dimensions
Item Length
9 in
Item Width
6 in
Additional Product Features
Intended Audience
Scholarly & Professional
LCCN
2017-032152
Dewey Edition
23
Illustrated
Yes
Dewey Decimal
616.07/543
Synopsis
In this monograph, the authors reports the current advancement in high frequency piezoelectric crystal micromachined ultrasound transducers and arrays and their biomedical applications. Piezoelectric ultrasound transducers operating at high frequencies (> 20 MHz) are of increasing demand in recent years for medical imaging and biological particle manipulation involved therapy. The performances of transducers greatly rely on the properties of the piezoelectric materials and transduction structures, including piezoelectric coefficient (d), electromechanical coupling coefficient (k), dielectric permittivity (e) and acoustic impedance (Z). Piezo-composite structures are preferred because of their relatively high electromechanical coupling coefficient and low acoustic impedance. A number of piezo-composite techniques have been developed, namely "dice and fill," "tape-casting," "stack and bond," "interdigital phase bonding," "laser micromachining" and "micro-molding". However, these techniques are either difficult to achieve fine features or not suitable for manufacturing of high frequency ultrasound transducers (> 20 MHz). The piezo-composite micromachined ultrasound transducers (PC-MUT) technique discovered over the last 10 years or so has demonstrated high performance high frequency piezo-composite ultrasound transducers. In this monograph, piezoelectric materials used for high frequency transducers is introduced first. Next, the benefits and theory of piezo composites is presented, followed by the design criteria and fabrication methods. Biomedical applications using piezo composites micromachined ultrasound transducers (PC-MUT) and arrays will also be reported, in comparison with other ultrasound transducer techniques. The final part of this monograph describes challenges and future perspectives of this technique for biomedical applications., In this monograph, the authors report the current advancement in high frequency piezoelectric crystal micromachined ultrasound transducers and arrays and their biomedical applications. Piezoelectric ultrasound transducers operating at high frequencies (>20 MHz) are of increasing demand in recent years for medical imaging and biological particle manipulation involved therapy. The performances of transducers greatly rely on the properties of the piezoelectric materials and transduction structures, including piezoelectric coefficient ( d ), electromechanical coupling coefficient ( k ), dielectric permittivity ( e ) and acoustic impedance ( Z ). Piezo-composite structures are preferred because of their relatively high electromechanical coupling coefficient and low acoustic impedance. A number of piezo-composite techniques have been developed, namely "dice and fill", "tape-casting", "stack and bond", "interdigital phase bonding", "laser micromachining" and "micro-molding". However, these techniques are either difficult to achieve fine features or not suitable for manufacturing of high frequency ultrasound transducers (>20 MHz). The piezo-composite micromachined ultrasound transducers (PC -MUT) technique discovered over the last 10 years or so has demonstrated high performance high frequency piezo-composite ultrasound transducers. In this monograph, piezoelectric materials used for high frequency transducers is introduced first. Next, the benefits and theory of piezo composites is presented, followed by the design criteria and fabrication methods. Biomedical applications using PC -MUT and arrays will also be reported, in comparison with other ultrasound transducer techniques. The final part of this monograph describes challenges and future perspectives of this technique for biomedical applications., In this monograph, the authors report the current advancement in high frequency piezoelectric crystal micromachined ultrasound transducers and arrays and their biomedical applications. Piezoelectric ultrasound transducers operating at high frequencies (>20 MHz) are of increasing demand in recent years for medical imaging and biological particle manipulation involved therapy. The performances of transducers greatly rely on the properties of the piezoelectric materials and transduction structures, including piezoelectric coefficient ( d ), electromechanical coupling coefficient ( k ), dielectric permittivity ( e ) and acoustic impedance ( Z ). Piezo-composite structures are preferred because of their relatively high electromechanical coupling coefficient and low acoustic impedance. A number of piezo-composite techniques have been developed, namely "dice and fill," "tape-casting," "stack and bond," "interdigital phase bonding," "laser micromachining" and "micro-molding." However, these techniques are either difficult to achieve fine features or not suitable for manufacturing of high frequency ultrasound transducers (>20 MHz). The piezo-composite micromachined ultrasound transducers (PC -MUT) technique discovered over the last 10 years or so has demonstrated high performance high frequency piezo-composite ultrasound transducers. In this monograph, piezoelectric materials used for high frequency transducers is introduced first. Next, the benefits and theory of piezo composites is presented, followed by the design criteria and fabrication methods. Biomedical applications using PC -MUT and arrays will also be reported, in comparison with other ultrasound transducer techniques. The final part of this monograph describes challenges and future perspectives of this technique for biomedical applications., Explores the current advancement in high frequency piezoelectric crystal micromachined ultrasound transducers and arrays and their biomedical applications. Piezoelectric ultrasound transducers operating at high frequencies (> 20 MHz) are of increasing demand for medical imaging and biological particle manipulation involved therapy.
LC Classification Number
RC78.7.U4
Artikelbeschreibung des Verkäufers
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