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Chemical etch

Bonding. Surface treatment, such as chemical etch, corona, or flame treatments, is required for adhesive bonding of Tefzel. Polyester and epoxy compounds are suitable adhesives. [Pg.370]

Poly(phenylquinoxaline—arnide—imides) are thermally stable up to 430°C and are soluble in polar organic solvents (17). Transparent films of these materials exhibit electrical insulating properties. Quinoxaline—imide copolymer films prepared by polycondensation of 6,6 -meth5lene bis(2-methyl-3,l-benzoxazine-4-one) and 3,3, 4,4 -benzophenone tetracarboxyUc dianhydride and 4,4 -oxydianiline exhibit good chemical etching properties (18). The polymers are soluble, but stable only up to 200—300°C. [Pg.532]

If the interlace or depth of interest is beyond the capability of sputtering, one can try polishing down, sectioning, or chemical etching the sample before insertion. [Pg.296]

Surface modifications and surfiice roughness Cu, Mo, and Be laser mirrors atomic oxygen modified (corroded) surfaces and films, and chemically etched surfaces. [Pg.409]

Another application involves the measurement of copper via the radioisotope Cu (12.6-hour half-life). Since Cu decays by electron capture to Ni ( Cu Ni), a necessary consequence is the emission of X rays from Ni at 7.5 keV. By using X-ray spectrometry following irradiation, sensitive Cu analysis can be accomplished. Because of the short range of the low-energy X rays, near-surface analytical data are obtained without chemical etching. A combination of neutron activation with X-ray spectrometry also can be applied to other elements, such as Zn and Ge. [Pg.678]

As with chemical etches, developing optimum conversion coatings requires assessment of the microstructure of the steel. Correlations have been found between the microstructure of the substrate material and the nature of the phosphate films formed. Aloru et al. demonstrated that the type of phosphate crystal formed varies with the orientation of the underlying steel crystal lattice [154]. Fig. 32 illustrates the different phosphate crystal morphologies that formed on two heat-treated surfaces. The fine flake structure formed on the tempered martensite surface promotes adhesion more effectively than the knobby protrusions formed on the cold-rolled steel. [Pg.991]

In addition to inspecting for possible contamination, it usually is also of interest to determine whether the chemical etching or anodization process has actually produced the desired oxide. For this purpose, anodization has somewhat of an advantage over etching (FPL, for example) because the thicker oxide developed... [Pg.997]

P. Bonsch, D. Wiillner, T. Schrimpf, A. Schlachletzki, R. Lacmann. Ultrasmooth V-grooves in InP by two-step chemical etching. J Electrochem Soc i45 nn-ni6, i998. [Pg.66]

A. Kumar, G. M. Whitesides. Features of gold having micrometer to centimeter dimensions can be formed through a combination with an elastomeric stamp and an alkanethiol ink followed by chemical etching. AppI Phys Lett (55 2002-2004, 1993. [Pg.67]

Other means of identification sometimes used satisfactorily involve chemical etching of the surface (not to be generally recommended), or the formation of letters or numbers by means of a vibrating stylus. The former is advantageous in studies of stress-corrosion cracking in which stamped symbols could lead to regions of stress concentration. [Pg.981]

The present review shows how the microhardness technique can be used to elucidate the dependence of a variety of local deformational processes upon polymer texture and morphology. Microhardness is a rather elusive quantity, that is really a combination of other mechanical properties. It is most suitably defined in terms of the pyramid indentation test. Hardness is primarily taken as a measure of the irreversible deformation mechanisms which characterize a polymeric material, though it also involves elastic and time dependent effects which depend on microstructural details. In isotropic lamellar polymers a hardness depression from ideal values, due to the finite crystal thickness, occurs. The interlamellar non-crystalline layer introduces an additional weak component which contributes further to a lowering of the hardness value. Annealing effects and chemical etching are shown to produce, on the contrary, a significant hardening of the material. The prevalent mechanisms for plastic deformation are proposed. Anisotropy behaviour for several oriented materials is critically discussed. [Pg.117]

The data available up to 1971 have been collected by Carr et al.,m who have also reported apzc value of -0.59 0.02 V (SCE) for a melted, cut, mechanically polished, and finally electrochemically and chemically etched electrode. [Pg.95]

See other pages where Chemical etch is mentioned: [Pg.113]    [Pg.119]    [Pg.134]    [Pg.394]    [Pg.417]    [Pg.32]    [Pg.354]    [Pg.381]    [Pg.390]    [Pg.529]    [Pg.529]    [Pg.528]    [Pg.529]    [Pg.208]    [Pg.310]    [Pg.319]    [Pg.113]    [Pg.156]    [Pg.51]    [Pg.51]    [Pg.613]    [Pg.671]    [Pg.677]    [Pg.192]    [Pg.182]    [Pg.215]    [Pg.400]    [Pg.416]    [Pg.951]    [Pg.985]    [Pg.986]    [Pg.994]    [Pg.491]    [Pg.2]    [Pg.206]    [Pg.554]    [Pg.506]    [Pg.559]    [Pg.83]   
See also in sourсe #XX -- [ Pg.405 ]

See also in sourсe #XX -- [ Pg.227 ]



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Chemical etching

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