Big Chemical Encyclopedia

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

Articles Figures Tables About

Array circular

In order to ensure perpendicular beam incidence on the cylindrical specimen, the circular B-scan profiles were acquired by high frequency (narrow beam) transducers in a synthetic circular aperture array. From these profiles two-dimensional reflection tomograms were reconstructed using a filtered backprojection technique. Straight line propagation was assumed. Several artificial discontinuity types in a cylindrical Plexiglas (Perspex) specimen were compared with similar artificial discontinuities in a cylindrical A/Si-alloy [2]. Furthermore, examples of real discontinuities (an inclusion and a feed head) in the cylindrical AlSi-alloy are presented. [Pg.200]

Fig. 1. Circular aperture array with uniformly distributed transducer elements (No. 1, 2. . N). Fig. 1. Circular aperture array with uniformly distributed transducer elements (No. 1, 2. . N).
Some discontinuities may be identified by a conventional two-dimensional ultrasonic technique, from which the well-known C-scan image is the most popular. The C-scan technique is relatively easy to implement and the results from several NDE studies have been very encouraging [1]. In the case of cylindrical specimens, a circular C-scan image is convenient to show discontinuity information. The circular C-scan image shows the peak amplitude of a back-scattered pulse received in the circular array. The axial scan direction is shown as a function of transducer position in the circular array. The circular C-scan image serves also as an initial step for choosing circular B-scan profiles. The latter provides a mapping between distance to the discontinuity and transducer position in the circular array. [Pg.201]

More recently, the circular array was proposed to assess the reflectivity of cylindrical specimens [3]. First, a circular C-scan image was obtained. The total scan time was about 25 min., which does not include a relatively time consuming alignment of the specimen. From the circular C-scan image, circular B-scan profiles were chosen in specific planes. The transducer was a focused high frequency transducer with a center frequency of 25 MHz of the transducer bandwidth. This frequency corresponds to a wavelength of 0.11 mm and 0.25 mm in the Plexiglas specimen and the AlSi-alloy, respectively. Additional experimental parameters are presented in Table 1. [Pg.203]

First, by circular array imaging A synthetic circular aperture array was used to obtain circular C-scan images. These images displayed the location of different discontinuity types, although only shadow images were obtained. [Pg.206]

Nielsen, S.A. and Bj0rn0, L. (1997). Bistatic circular array imaging with gated ultrasonic signals. Acoustical Imaging, Vol. 23 (In press). [Pg.207]

As circular domains grow in size or number, the dipolar interactions between them increase until they form a hexagonal array of spacing... [Pg.139]

Pattemators may comprise an array of tubes or concentric circular vessels to coUect Hquid droplets at specified axial and radial distances. Depending on the pattemator, various uniformity indexes can be defined using the accumulated relative values between the normalized flow rate over a certain sector or circular region and a reference value that represents a perfectly uniform distribution. For example, using an eight-sector pie-shaped coUector, the reference value for a perfectly uniform spray would be 12.5%. The uniformity index (28) could then be expressed as foUows, where is the normalized volume or mass flow rate percentage in each 45-degree sector. [Pg.331]

As for oil and gas, the burner is the principal device required to successfully fire pulverized coal. The two primary types of pulverized-coal burners are circular concentric and vertical jet-nozzle array burners. Circular concentric burners are the most modem and employ swid flow to promote mixing and to improve flame stabiUty. Circular burners can be single or dual register. The latter type was designed and developed for NO reduction. Either one of these burner types can be equipped to fire any combination of the three principal fuels, ie, coal, oil and gas. However, firing pulverized coal with oil in the same burner should be restricted to short emergency periods because of possible coke formation on the pulverized-coal element (71,72). [Pg.526]

Hashin and Rosen [3-8] extended Hashin s work to fiber-reinforced composite materiais. The fibers have a circular cross section and can be hoilow or solid. Two cases were treated (1) identical fibers in a he gotiaLarray and (2) fibers of various diameters (but same ratio of insldeto outside diameter, if hollow) in a random array. The two types of arrays are depicted in Figure 3-21. In both cases, the basic anaiysis... [Pg.143]

Figure 3-32 Halpin-Tsai Calculations (Circles) versus Adams and Doner s Calculations for E2 of Circular Fibers in a Square Array (After Halplrt ar d Tsai [3-17])... Figure 3-32 Halpin-Tsai Calculations (Circles) versus Adams and Doner s Calculations for E2 of Circular Fibers in a Square Array (After Halplrt ar d Tsai [3-17])...
Figure 3-38 Modified Halpin-Tsai Calculations versus Adams and Conner s Calculations for G 2 Circular Fibers In a Square Array (After Hewitt and de Malherbe [3-23])... Figure 3-38 Modified Halpin-Tsai Calculations versus Adams and Conner s Calculations for G 2 Circular Fibers In a Square Array (After Hewitt and de Malherbe [3-23])...
Results from an array of methods, including X-ray absorption, EXAFS, esr and magnetic circular dichroism, suggest that in all ureases the active sites are a pair of Ni" atoms. In at least one urease,these are 350 pm apart and are bridged by a carboxylate group. One nickel is attached to 2 N atoms with a fourth site probably used for binding to urea. The second nickel has a trigonal bipyramidal coordination sphere. [Pg.1167]

Micro-jet arrays are usually associated with lower energy consumption rates than sprays generated by the special (HAGO) nozzle for the same flow rate. The liquid was pushed through a 0.5 mm stainless steel orifice plate to form the jets. The holes in the plate were laser drilled and were arranged in a circular pattern giving a radial... [Pg.16]

Unfortunately, in the VUV region no polarimetry data are available, but calculations indicate the degree of circular polarization achieved by the wiggler may be 80%, estimated to be no worse than 70% delivered at the experimental chamber [95, 96]. In PECD experiments, we have calibrated the polarization state by deduction from cross-comparison of results at a few fixed energies previously studied on the SU5 beamline where accurate polarimetry data was available [36]. Because the horizontal magnetic field array in the insertion device is electromagnetic, fast current reversal to switch left- and right-handed elliptical polarizations is possible, with the usual potential benefit for dichroism measurements. [Pg.303]

Because process mixtures are complex, specialized detectors may substitute for separation efficiency. One specialized detector is the array amperometric detector, which allows selective detection of electrochemically active compounds.23 Electrochemical array detectors are discussed in greater detail in Chapter 5. Many pharmaceutical compounds are chiral, so a detector capable of determining optical purity would be extremely useful in monitoring synthetic reactions. A double-beam circular dichroism detector using a laser as the source was used for the selective detection of chiral cobalt compounds.24 The double-beam, single-source construction reduces the limitations of flicker noise. Chemiluminescence of an ozonized mixture was used as the principle for a sulfur-selective detector used to analyze pesticides, proteins, and blood thiols from rat plasma.25 Chemiluminescence using bis (2,4, 6-trichlorophenyl) oxalate was used for the selective detection of catalytically reduced nitrated polycyclic aromatic hydrocarbons from diesel exhaust.26... [Pg.93]

The electrochemical etch-stop technology that produces the silicon island is rather complex, so that an etch stop directly on the dielectric layer would simplify the sensor fabrication (Sect. 4.1.2). The second device as presented in Fig. 4.6 was derived from the circular microhotplate design and features the same layout parameters of heaters and electrodes. It does, however, not feature any sihcon island. Due to the missing heat spreader, significant temperature gradients across the heated area are to be expected. Therefore, an array of temperature sensors was integrated on the hotplate to assess the temperature distribution. The temperature sensors (nominal resistance of 1 kfl) were placed in characteristic locations on the microhotplate, which were numbered Ti to T4. [Pg.39]


See other pages where Array circular is mentioned: [Pg.200]    [Pg.201]    [Pg.201]    [Pg.204]    [Pg.136]    [Pg.1309]    [Pg.180]    [Pg.379]    [Pg.524]    [Pg.11]    [Pg.89]    [Pg.152]    [Pg.152]    [Pg.562]    [Pg.462]    [Pg.62]    [Pg.89]    [Pg.283]    [Pg.575]    [Pg.325]    [Pg.193]    [Pg.193]    [Pg.620]    [Pg.627]    [Pg.182]    [Pg.158]    [Pg.158]    [Pg.345]    [Pg.96]    [Pg.334]    [Pg.550]    [Pg.112]    [Pg.4]   
See also in sourсe #XX -- [ Pg.369 ]




SEARCH



© 2024 chempedia.info