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Shear defects

In situ dynamic ETEM studies in controlled environments of oxide catalysts permit direct observations of redox pathways under catalytic reaction conditions and provide a better fundamental understanding of the nucleation, growth and the nature of defects at the catalyst surface and their role in catalysis (Gai 1981-1982 92). The following paragraphs describe the methods of observation and quantitative analyses of the surface and microstmctural changes of the catalyst, and correlation of microstmctural data with measurements of catalytic reactivity. We examine examples of pure shear and crystallographic (CS) shear defects that occur under catalytic conditions. [Pg.83]

There exists an alternative explanation. Egami, Maeda et al. 85) introduced different kinds of defects of n , p and t type to characterize the glassy state of matter. Defects of n and p-type correspond to negative and positive density fluctuations while the defects of x-type are the shear defects which do not change the specific volume of the system. Different defects through which the total free volume of a sample is distributed affect different properties. If curing at different Tcur<. leads to polymers with different defect ratios, the differences in the macroscopic behaviour can be explained. [Pg.94]

What would be the formula of a compound consisting of nine normal blocks of M0O3 separated by one plane of crystallograph-ically sheared defect octahedra ... [Pg.149]

Figure 3 In situ studies using HRTEM (See text) reveal that so-called glide shear defects, identified by Gai play an important role in the catalytic action of (V02)P207 dnring the oxidation of butane to maleic anhydride. Pi and P2 are partial screw dislocations. Figure 3 In situ studies using HRTEM (See text) reveal that so-called glide shear defects, identified by Gai play an important role in the catalytic action of (V02)P207 dnring the oxidation of butane to maleic anhydride. Pi and P2 are partial screw dislocations.
Speckle shearing interferometry, or shearography, is a full field optical inspection teclmique that may be used for the nondestructive detection of surface and, sometimes, subsurface defects. Whilst being more sensitive in the detection of surface defects, it may also be considered for pipe inspection and the monitoring of internal conoslon. In contrast, laser ultrasound and other forms of ultrasound, are point by point measurement techniques, so that scanning facilities and significant data processing is required before information on local defects is extracted from any examination of extensive areas [1 - 3]. [Pg.678]

Shear Horizontal (SH) waves generated by Electromagnetic Acoustic Transducer (EMAT) have been used for sizing fatigue cracks and machined notches in steels by Time-of-Flight Diffraction (TOED) method. The used EMATs have been Phased Array-Probes and have been operated by State-of-the-art PC based phased array systems. Test and system parameters have been optimised to maximise defect detection and signal processing methods have been applied to improve accuracy in the transit time measurements. [Pg.721]

For defect sizing by TOED, use of L waves involves a penalty in resolution of almost a factor of two at a given frequency because of difference in velocity as compared to shear waves and use of SV waves runs into difficulties because of the mode conversion problems. Further, problems due to couplant thickness variations, surface roughness affects, beam skewing and distortion problems in anisotropic welds can also be expected. On the contrary, SH waves are not affected... [Pg.721]

Metal Preparation. Sheet-steel parts are formed by stamping, bending, and shearing. Many parts require welding (qv), which needs to be carried out in a uniform, smooth manner so that the welded joint can be enameled without defects. Cast-iron parts are formed by the usual cast-iron foundry methods however, additional care is given to prevent contamination of the surface. Surface contamination causes defects in the enamel, particularly bUsters and bubbles. Aluminum metal can be formed in sheets, extmsions, and as castings. [Pg.212]

So, for given strain rate s and v (a function of the applied shear stress in the shock front), the rate of mixing that occurs is enhanced by the factor djhy due to strain localization and thermal trapping. This effect is in addition to the greater local temperatures achieved in the shear band (Fig. 7.14). Thus we see in a qualitative way how micromechanical defects can enhance solid-state reactivity. [Pg.245]

See other pages where Shear defects is mentioned: [Pg.406]    [Pg.568]    [Pg.570]    [Pg.40]    [Pg.120]    [Pg.123]    [Pg.84]    [Pg.85]    [Pg.188]    [Pg.13]    [Pg.6]    [Pg.247]    [Pg.406]    [Pg.568]    [Pg.570]    [Pg.40]    [Pg.120]    [Pg.123]    [Pg.84]    [Pg.85]    [Pg.188]    [Pg.13]    [Pg.6]    [Pg.247]    [Pg.158]    [Pg.678]    [Pg.683]    [Pg.684]    [Pg.685]    [Pg.697]    [Pg.698]    [Pg.721]    [Pg.562]    [Pg.1694]    [Pg.282]    [Pg.128]    [Pg.156]    [Pg.120]    [Pg.4]    [Pg.5]    [Pg.322]    [Pg.33]    [Pg.226]    [Pg.206]    [Pg.212]    [Pg.245]    [Pg.216]    [Pg.487]    [Pg.488]    [Pg.490]    [Pg.117]    [Pg.123]   
See also in sourсe #XX -- [ Pg.570 ]

See also in sourсe #XX -- [ Pg.85 , Pg.94 ]



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Extended defects, shear structures

Glide shear defects

Planar defects shear structures

Shear Plane-Point Defect Equilibria

Steady Shearing Flow of Defect-Ridden Smectics

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