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Reflecting surface

We present a novel method, called VIGRAL, to size and position the reflecting surface of a flaw. The method operates on standard B-scan recorded with traditional transducers, to extract Time-of-Flight (ToF) information which is then back-projected to reconstruct the reflecting surface of the flaw and characterize its radiation pattern. The VIGRAL method locates and sizes flaws to within k/2, and differentiates between flat and volumetric defects. [Pg.163]

The VIGRAL approach represents the reflecting surface of a defect as an ensemble of virtual point sources. At every measurement point of the B-Scan, the detecting transducer responds... [Pg.163]

Table 2 compares between the VIGRAL results and mechanical measurements of the simulated FBH defects. The table lists the size of the reflecting surface,, its depth location, the Yd, and the standard deviation of the depth information, o>i( y ). We note an excellent agreement between the VIGRAL and the mechanical measurements both in size and depth of the defects. [Pg.169]

G.A.Krug, Defining the real defects reflecting surface . Diagnostic, Kiev, 1988, 6, 22-25. [Pg.170]

In this work, a microwave interferometric method and apparatus for vibration measurements is described. The principle of operation is based on measurement of the phase of reflected electromagnetic wave changing due to vibration. The most important features of the method are as follows simultaneous measurement of tlie magnitude and frequency of the rotating object high measurement accuracy weak influence of the roll diameter, shape and distance to the object under test. Besides, tlie reflecting surface can be either metallic or non-metallic. Some technical characteristics are given. [Pg.654]

The construction of a typical monochromator is shown in Figure 10.12. Radiation from the source enters the monochromator through an entrance slit. The radiation is collected by a collimating mirror, which reflects a parallel beam of radiation to a diffraction grating. The diffraction grating is an optically reflecting surface with... [Pg.376]

Uses. Sound-absorbing materials are frequendy used to reduce reverberation, or the persistence of sound in a space after generation of the sound ceases to reduce focused reflections from concave surfaces to prevent echoes, or delayed sound reflections from distant surfaces and to prevent the buildup of sound by multiple reflections within rooms and other enclosures. Sound-absorbing materials also are used to reduce the transmission of noise from one location to another by multiple reflections from sound-reflecting surfaces. [Pg.312]

Laminated glass is used for solar control, particularly where a highly reflective surface is not desired and where the laminate contributes other benefits. In these applications, a uniformly pigmented interlayer is obtained from the manufacturer and the laminate can be prepared by the conventional process. Broad ranges of colors and transmission levels are available with shading coefficients as low as 0.41. Pigmented interlayer is considered to be more... [Pg.528]

Antireflective (AR) coatings are required on optics to reduce the reflective surface losses. Vitreous siHca coatings in the form of porous or multilayer films are used extensively in this appHcation. Antireflective coatings have been developed which employ coUoidal fused siHca sol—gel particles made from organometaUic materials (253). [Pg.513]

Other sohd-state apphcations of sihcon carbide include its use as an electroluminescent diode for use in sound recording equipment and photomultipliers and controllers. It has been studied as a reflective surface for lasers. By combining its excellent thermal conductivity and high electrical resistance, sihcon carbide has also found apphcation as an insulating material for integrated circuit substrates. [Pg.468]

Materials or combinations of materials which have air- or gas-fiUed pockets or void spaces that retard the transfer of heat with reasonable effectiveness are thermal insulators. Such materials may be particulate and/or fibrous, with or without binders, or may be assembled, such as multiple heat-reflecting surfaces that incorporate air- or gas-filled void spaces. [Pg.1098]

This technique is based on the Dewar flask, which is a donble-walled vessel with reflective surfaces on the evacuated side to reduce radiation losses. Figure 11-66 shows a typical laboratory-size Dewar. Figure 11-67 shows a semiportable type. Radiation losses can be further reduced by filling the cavity with powders such as perlite or silica prior to pulling the vacuum. [Pg.1099]

Barker, L.M., and Hollenbach, R.E. (1972), Laser Interferometer for Measuring High Velocities of Any Reflecting Surface, J. Appl. Phys. 43, 4669-4675. [Pg.111]

In Western Europe the largest user is the vehicle construction industry where ABS has been used for fascia panels, door covers, door handles, radiator grilles, ventilation system components, heater housings, seat belt fastenings, console panels, loudspeaker housings, interior trim and other uses. For some years there was extensive use of electroplated ABS. Whilst this continues to be used for nameplates, reflectors and other parts where a bright reflecting surface is a requirement, it has tended to fall out of favour simply for decoration. [Pg.464]

At (j> the penetration depth approaches a minimum, particularly for reflective surfaces such as chemi-mechanically polished Si. Total reflection disappears on rough surfaces (Fig. 4.3). Below rj> the penetration depth is in the range of a few nanometers (Fig. 4.4). [Pg.183]

When the noise transmission takes place in a free field (no reflective surfaces), it is possible to calculate the pressure levels at different distances from the source. For spherical propagation, the following formula can be used ... [Pg.798]

For BLEVEs or pressure vessel bursts that take place far from reflecting surfaces, the above method may be used if a few modifications are made. The blast wave does not reflect on the ground. Thus, the available energy E is spread over twice the volume of air. Therefore, instead of using Eq. (6.3.15), calculate the energy with... [Pg.222]

Although this technique has not been used extensively, it does allow structures of adsorbed layers on solid substrates to be studied. Liquid reflectivity may also be performed with a similar set-up, which relies on a liquid-liquid interface acting as the reflective surface and measures the reflectivity of a thin supported liquid film. This technique has recently been used to investigate water-alkane interfaces [55] and is potentially useful in understanding the interaction of ionic liquids with molecular solvents in which they are immiscible. [Pg.147]

See other pages where Reflecting surface is mentioned: [Pg.165]    [Pg.165]    [Pg.167]    [Pg.169]    [Pg.170]    [Pg.655]    [Pg.885]    [Pg.1063]    [Pg.368]    [Pg.339]    [Pg.288]    [Pg.360]    [Pg.371]    [Pg.165]    [Pg.198]    [Pg.312]    [Pg.313]    [Pg.332]    [Pg.210]    [Pg.532]    [Pg.234]    [Pg.163]    [Pg.1081]    [Pg.230]    [Pg.425]    [Pg.713]    [Pg.716]    [Pg.159]    [Pg.210]    [Pg.92]    [Pg.186]    [Pg.676]    [Pg.677]   
See also in sourсe #XX -- [ Pg.188 ]



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