'Composite Array' Searchterm 'Composite Array' found in 4 articles 1 term [ • ] - 3 definitions [• ] Result Pages : • Composite Array
Composite arrays are combinations of piezoelectric ceramics and polymers that form a new material with different properties. Piezocomposites improve the performance of usual arrays such as the mechanically scanned annular array and the linear phased array. Piezocomposites reduce the acoustic impedance with a better impedance match with tissue. The result is a reduction of the reverberation level in the near field. Unwanted surface waves propagating laterally over the transducer are suppressed. The composite materials allow to vary the electromechanical coupling constant, and to give better control over the trade-off between sensitivity and bandwidth. See also Narrow Bandwidth, Dead Zone, Ultrasound Phantom. •
Arrays are spatial arrangements of transducers or transducer elements. Array types used in ultrasound imaging:
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annular array - elements arranged in concentric circles;
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curved array - elements arranged along a convex curve;
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linear array - elements are arranged along a line;
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rectangular array - elements arranged in a rectangular pattern.
See also Composite Array. •
A piezoelectric ceramic is made of crystalline substance which creates charges of electricity by the application of pressure and vice versa. This material is used in ultrasound transducers to create the sound waves. See also Composite Array. •
A piezoelectric crystal changes the physical dimensions when subjected to an electric field. When deformed by external pressure, an electric field is created across the crystal. Piezoelectric ceramic and crystals are used in ultrasound transducers to transmit and receive ultrasound waves. The piezoelectric crystal in ultrasound transducers has electrodes attached to its front and back for the application and detection of electrical charges. The crystal consists of numerous dipoles, and in the normal state, the individual dipoles have an oblique orientation with no net surface charge. In ultrasound physics, an electric field applied across the crystal will realign the dipoles and results in compression or expansion of the crystal, depending on the direction of the electric field. For the transmission of a short ultrasound pulse, a voltage spike of very short duration is applied, causing the crystal to initially contract and then vibrate for a short time with its resonant frequency. See also Composite Array, Transducer Pulse Control, and Temporal Peak Intensity. Result Pages : |