Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Piezoelectricity principles

PWAS are small, lightweight, and relatively low-cost transducers based on the piezoelectric principle that couples the electrical and mechanical variables in the material (mechanical strain, Sij, mechanical stress, T i, electrical field, E, and electrical displacement Dj) in the form... [Pg.456]

The excitation of oscillation is realized by an external voltage generator and a sonic transducer according to the piezoelectric principle. Rereby, an output amplitude of only a few micrometers is reached, which can be increased by means of subsequent sonotrodes up to A 80 xm, depending on the respective application. [Pg.343]

The Mossbauer measurement requires the generation of a precise, controllable relative motion between the source and the absorber. A large variety of drive systems has been developed. The majority of drives work on electromechanical, mechanical, hydrauHc, and piezoelectric principle. The spectrometers can be classified into constant-velodty spectrometers and velocity-sweep spectrometers. The mechanical drives, hke a lead screw or a cam, move with constant velocity. They have advantages for the thermal scan method and because their absolute velocity calibration is straightforward. The velocity-sweep spectrometers are usually of electromechanical nature (like loudspeaker-type transducers) and normally used in conjunction with a multichannel analyzer. The most commonly used M(t) functions are rectangular (constant velocity), triangular (constant acceleration), trapezoidal, and sinusoidal. A typical Mossbauer spectrometer is shown schematically in O Fig. 25.24. [Pg.1428]

Quartz microbalances using the piezoelectric principle for the detection of the adsorbed analyte load... [Pg.1960]

Giurgiutiu V (2009) Piezoelectricity principles and materials. In Encyclopedia of structural health monitoring. Wiley, pp 981-991... [Pg.1721]

Fokker Bond Tester. An ultrasonic inspection technique commonly used for aircraft structures is based on ultrasonic spectroscopy [2]. Commercially available instruments (bond testers) used for this test operate on the principle of mechanical resonance in a multi-layer structure. A piezoelectric probe shown in Figure 3b, excited by a variable frequency sine signal is placed on the surface of the inspected structure. A frequency spectrum in the range of some tens of kHz to several MHz is acquired by the instrument, see Figure 3a. [Pg.108]

Fig. 5.2. Principle of AFM. The sample symbolized by the circles is scanned by means of a piezoelectric translator. The piezo crystal and the oscillator is only needed for tapping mode operation. Fig. 5.2. Principle of AFM. The sample symbolized by the circles is scanned by means of a piezoelectric translator. The piezo crystal and the oscillator is only needed for tapping mode operation.
Figure 2 shows the brief principle of a laser-detected FFM. A sample is put on a piezoelectrical tube (PZT), which scans X, Y plane and controls the feedback of Z axis. The laser beam from a diode is focused on the mirror of the free end of a cantilever with lens, and the reflected beam falls on the center of a position-sensitive detector (PSD), a four-quadrant photodiode. When the sample contacts with the tip and relatively moves under the control of a computer, the reflected beam deflects and changes the position on the PSD due to the twist and deflection of the cantilever caused by the changes of surface roughness, friction force, and adhesive force between the sample and the tip. The extension and re-... [Pg.188]

Fig. 2—Brief principle of a laser-detected FFM. 1, laser beam 2, cantilever 3, tip 4, Sample 5, piezoelectrical tube 6, position-sensitive detector. Fig. 2—Brief principle of a laser-detected FFM. 1, laser beam 2, cantilever 3, tip 4, Sample 5, piezoelectrical tube 6, position-sensitive detector.
The principle of operation of a quartz balance can be easily described if an AC potential is placed across a quartz piezoelectric crystal, the crystal will oscillate spatially and the amplitude of this oscillation is greatest at the resonance frequency of the crystal. This resonance frequency, /0, is a function of several parameters, including the mass of the crystal, and the mass of foreign material placed on the crystal. In fact, the change in the resonance frequency, A/0, on placing some foreign material on it is given approximately... [Pg.210]

Using the same PAbs an optical biosensor system has been developed for 2,4,6-TCP [224]. The principle is the detection of laser-induced fluorescence (LIF) in single microdroplets by a homogeneous quenching fluorescence immunoassay (QFIA). The competitive immunoassay occurs in microdroplets (d=58.4 mm) produced by a piezoelectric generator system. A continuous Ar ion laser (488 nm) excites the fluorescent tracer and its fluorescence is detected by a spectrometer attached to a cooled, charge-coupled device (CCD) camera... [Pg.162]

Atomization of melts has, in principle, some similarity to the atomization of normal liquids. The atomization processes originally developed for normal liquids, such as swirl jet atomization, two-fluid atomization, centrifugal atomization, effervescent atomization, ultrasonic piezoelectric vibratory atomization, and Hartmann-whistle acoustic atomization, have been deployed, modified, and/or further developed for the atomization of melts. However, water atomization used for melts is not a viable technique for normal liquids. Nevertheless, useful information and insights derived from the atomization of normal liquids, such as the fundamental knowledge of design and performance of atomizers, can be applied to the atomization of melts. [Pg.65]

Non-labelled immunosensors rely on various principles (Fig. 3.27.A). Either the antibody or the antigen is immobilized on the solid matrix to form a sensing device. The solid matrix should be sensitive enough at the surface to detect immunocomplex formation. Electrode, membrane, piezoelectric and optically active surfaces may in principle be used to construct non-labelled immunosensors. The antigen or antibody to be determined is dissolved in a solution and reacted with the complementary matrix-bound antibody or antigen to form an immunocomplex that alters the physical e.g. the electrode potential or intrinsic piezofrequency) or optical properties of the... [Pg.155]

J.H.T. LUONG and G.G. GUILBAULT, "Analytical applications of piezoelectric crystal biosensors", in "Biosensors Principles and Applications", M. Dekker, Inc., New York, 1991. [Pg.196]

If larger displacements are required, an arrangement as shown in Fig. 9.7, the bimorph, can be applied. The principle is similar to the bimetal thermometer. Two thin plates of piezoelectric material are glued together. By applying a voltage, one plate expands and the other one contracts. The composite flexes. [Pg.222]

See Lead zirconate titanate ceramics Quality number 219 Quantum transmission 59 Reciprocal space 123, 353 Reciprocity principle 88 Reconstruction 14, 327 Au(lll) 327 DAS model 16 Si(lll)-2X1 14 Recursion relations 352 Repulsive atomic force 185, 192 Resonance frequency 234, 241 piezoelectric scanners 234 vibration isolation system 241 Resonance interactions 171, 177 and tunneling 177 Resonance theory of the chemical bond 172... [Pg.409]

See other pages where Piezoelectricity principles is mentioned: [Pg.6]    [Pg.1745]    [Pg.1807]    [Pg.486]    [Pg.1080]    [Pg.1122]    [Pg.175]    [Pg.243]    [Pg.6]    [Pg.1745]    [Pg.1807]    [Pg.486]    [Pg.1080]    [Pg.1122]    [Pg.175]    [Pg.243]    [Pg.708]    [Pg.23]    [Pg.276]    [Pg.275]    [Pg.312]    [Pg.82]    [Pg.21]    [Pg.226]    [Pg.312]    [Pg.109]    [Pg.271]    [Pg.390]    [Pg.513]    [Pg.514]    [Pg.128]    [Pg.314]    [Pg.479]    [Pg.141]    [Pg.111]    [Pg.228]    [Pg.142]    [Pg.143]    [Pg.222]    [Pg.495]    [Pg.18]    [Pg.409]   
See also in sourсe #XX -- [ Pg.490 , Pg.491 , Pg.492 ]



SEARCH



Piezoelectric energy principles

Principles of Piezoelectricity

© 2024 chempedia.info