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Deformation, electric

A better alternative is to use the difference structure factor AF in the summations. The electrostatic properties of the procrystal are rapidly convergent and can therefore be easily evaluated in direct space. Stewart (1991) describes a series of model calculations on the diatomic molecules N2, CO, and SiO, placed in cubic crystal lattices and assigned realistic mean-square amplitudes of vibration. He reports that for an error tolerance level of 1%, (sin 0/2)max = 1-1.1 A-1 is adequate for the deformation electrostatic potential, 1.5 A-1 for the electric field, and 2.0 A 1 for the deformation density and the deformation electric field gradient (which both have Fourier coefficients proportional to H°). [Pg.173]

In order to reduce the bending deformation, electric field is applied to PZT actuator. Figure 9 shows the variation of bending deformation when different electric fields are applied. When no electric field is applied, the maximum displacement at the end of plate is about 3.3mm. The maximum displacement is reduced to 1.0mm when Ey = 1.5 X 10 (V/cm) and it is almost completely canceled when Ey = 2.2 x 10 (V/cm). [Pg.779]

KR 2862 WU - flame retardant, very high resistance to heat deformation (electrical engineering)... [Pg.344]

The application of load in materials produces internal modifications such as crack growth, local plastic deformation, corrosion and phase changes, which are accompanied by the emission of acoustic waves in materials. These waves therefore contain information on the internal behaviour of the material and can be analysed to obtain this information. The waves are detected by the use of suitable sensors, that converts the surface movements of the material into electric signal. These signals are processed, analysed and recorded by an appropriate instrumentation. [Pg.31]

Dislocation theory as a portion of the subject of solid-state physics is somewhat beyond the scope of this book, but it is desirable to examine the subject briefly in terms of its implications in surface chemistry. Perhaps the most elementary type of defect is that of an extra or interstitial atom—Frenkel defect [110]—or a missing atom or vacancy—Schottky defect [111]. Such point defects play an important role in the treatment of diffusion and electrical conductivities in solids and the solubility of a salt in the host lattice of another or different valence type [112]. Point defects have a thermodynamic basis for their existence in terms of the energy and entropy of their formation, the situation is similar to the formation of isolated holes and erratic atoms on a surface. Dislocations, on the other hand, may be viewed as an organized concentration of point defects they are lattice defects and play an important role in the mechanism of the plastic deformation of solids. Lattice defects or dislocations are not thermodynamic in the sense of the point defects their formation is intimately connected with the mechanism of nucleation and crystal growth (see Section IX-4), and they constitute an important source of surface imperfection. [Pg.275]

Properties. Table 1 hsts many of the physical, thermal, mechanical, and electrical properties of indium. The highly plastic nature of indium, which is its most notable feature, results from deformation from mechanical twinning. Indium retains this plasticity at cryogenic temperatures. Indium does not work-harden, can endure considerable deformation through compression, cold-welds easily, and has a distinctive cry on bending as does tin. [Pg.79]

Many of the variations developed to make pressure sensors and accelerometers for a wide variety of appHcations have been reviewed (5). These sensors can be made in very large batches using photoHthographic techniques that keep unit manufacturing costs low and ensure part-to-part uniformity. A pressure differential across these thin diaphragms causes mechanical deformation that can be monitored in several ways piezoresistors implanted on the diaphragm are one way changes in electrical capacitance are another. [Pg.390]

The covalent compounds of graphite differ markedly from the crystal compounds. They are white or lightly colored electrical insulators, have Hi-defined formulas and occur in but one form, unlike the series typical of the crystal compounds. In the covalent compounds, the carbon network is deformed and the carbon atoms rearrange tetrahedraHy as in diamond. Often they are formed with explosive violence. [Pg.572]

The piezoelectric response investigation also provides direct evidence that significant inelastic deformation and defect generation can occur well within the elastic range as determined by the Hugoniot elastic limit. In quartz, the Hugoniot elastic limit is 6 GPa, but there is clear evidence for strong nonideal mechanical and electrical effects between 2.5 and 6 GPa. The unusual dielectric breakdown phenomenon that occurs at 800 MPa under certain... [Pg.95]


See other pages where Deformation, electric is mentioned: [Pg.187]    [Pg.400]    [Pg.205]    [Pg.2]    [Pg.924]    [Pg.263]    [Pg.264]    [Pg.187]    [Pg.400]    [Pg.205]    [Pg.2]    [Pg.924]    [Pg.263]    [Pg.264]    [Pg.58]    [Pg.62]    [Pg.1065]    [Pg.32]    [Pg.250]    [Pg.87]    [Pg.160]    [Pg.208]    [Pg.154]    [Pg.421]    [Pg.224]    [Pg.196]    [Pg.308]    [Pg.23]    [Pg.762]    [Pg.355]    [Pg.68]    [Pg.215]    [Pg.338]    [Pg.479]    [Pg.576]    [Pg.157]    [Pg.106]    [Pg.163]    [Pg.173]    [Pg.357]    [Pg.376]    [Pg.6]    [Pg.82]    [Pg.90]    [Pg.105]   
See also in sourсe #XX -- [ Pg.12 ]




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