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Light micrograph

Fig. 1.7 Light micrograph showing intergranular corrosion of a sensitised austenitic stainless... Fig. 1.7 Light micrograph showing intergranular corrosion of a sensitised austenitic stainless...
Fig. l.II Light micrograph of the microstnicture of a pearlitic grey cast iron x 720... [Pg.48]

Fig. 20.33 (top) Transmission electronmicrograph showing dislocation tangles associated with precipitates in an Al-Cu-Mg-Si alloy (x 24 000, courtesy S. Blain) and (bottom) light micrograph showing slip lines in pure lead (x 100)... [Pg.1265]

Fig. 20.34 Light micrograph showing the highly elongated grain structure of a commercial wrought high-strength precipitation-hardening Al-Zn-Mg-Cu alloy (x 40, section perpendicular to the long transverse direction)... Fig. 20.34 Light micrograph showing the highly elongated grain structure of a commercial wrought high-strength precipitation-hardening Al-Zn-Mg-Cu alloy (x 40, section perpendicular to the long transverse direction)...
Fig. 20.40 Light micrograph showing the microstructure of a hyper-eutectic Pb-50Sb alloy... Fig. 20.40 Light micrograph showing the microstructure of a hyper-eutectic Pb-50Sb alloy...
The zirconia membrane was obtained in a unique manner. Figure 16.24 shows light micrographs of the zirconia-alumina membrane coated on the ceramic support. The non-unifomity and crater-filled surface of the ceramic support was covered by the zirconia-alumina membrane layer. Zirconia was mounted by very thin or nano-layers on the ceramic membrane. [Pg.388]

FIG. 2. Sister chromatid separation does not depend on the mitotic spindle. Light micrographs of mitosis in living flattened endosperm from Haemanthus katherinae BAK. treated with colchicine (c-mitosis). The micrographs were taken at 10 min intervals. Size bar, 10 /tm. Reprinted with permission from Mole-Bajer (1958). [Pg.116]

Figure 10 Global Raman image of PTFE distribution in PA-matrix image taken at 731 cm- Left white light micrograph center Raman image right the same image after image enhancement and edge detection. Figure 10 Global Raman image of PTFE distribution in PA-matrix image taken at 731 cm- Left white light micrograph center Raman image right the same image after image enhancement and edge detection.
Figure 15 Light microscopy image and Raman spectra of an inclusion in PP film. Top, white light micrograph of the inclusion in the PP film. Bottom, Raman spectra, taken at the surface of the PP film (PP) and 12 pm underneath the film surface (inclusion). The spectrum of the inclusion is compared with the reference spectrum of an additive (taken from a supplied reference sample). Figure 15 Light microscopy image and Raman spectra of an inclusion in PP film. Top, white light micrograph of the inclusion in the PP film. Bottom, Raman spectra, taken at the surface of the PP film (PP) and 12 pm underneath the film surface (inclusion). The spectrum of the inclusion is compared with the reference spectrum of an additive (taken from a supplied reference sample).
FIGURE 4-2 Light micrograph of a 1 pm Epon section of rabbit peripheral nerve (anterior root), stained with toluidine blue. The myelin sheath appears as a thick black ring around the pale axon. (Courtesy of Dr Cedric Raine.)... [Pg.52]

Figure 5.41 (a) Dark-field light micrograph of double-helical ropes formed from homoditopic... [Pg.337]

Figure 9. Electromicrograph of a high density poly- Figure 10. Light micrograph of polyethylene fibrids. Figure 9. Electromicrograph of a high density poly- Figure 10. Light micrograph of polyethylene fibrids.
Figure 11.6 Photographs of foreign contamination in pellets of a re-pelletized reclaim stream a) photomicrograph of discolored PE pellets containing dark defects, and b) transmitted polarized light micrograph of a pellet cross section containing a defect. Photographs were provided by E. Garcia-Meitin of The Dow Chemical Company... Figure 11.6 Photographs of foreign contamination in pellets of a re-pelletized reclaim stream a) photomicrograph of discolored PE pellets containing dark defects, and b) transmitted polarized light micrograph of a pellet cross section containing a defect. Photographs were provided by E. Garcia-Meitin of The Dow Chemical Company...
Light micrographs of incipient lesions, which were formed by alternating incubations with HAc pH 5.0 (A), HLac-MHDP pH 4.5 (B), and HLac-MHDP pH 5.0 (C) and either collagenase (left) or buffer (right). 9A (left) 1 = deepest layer, 2 = intermediate layer, 3 = top layer. Stain Richardson s. [Pg.27]

Figure 3.6 Effect of Ca2+ content on predicted values of osmotic pressure (H, , left axis) of caseinate nanoparticles in emulsion continuous phase and the free energy of the depletion interaction (AGdep, , right axis) between a pair of emulsion droplets ( Figure 3.6 Effect of Ca2+ content on predicted values of osmotic pressure (H, , left axis) of caseinate nanoparticles in emulsion continuous phase and the free energy of the depletion interaction (AGdep, , right axis) between a pair of emulsion droplets (<a = 250 nm) covered by sodium caseinate. The interdroplet separation h is equal the thickness of the depletion layer Rh (pH = 7.0, ionic strength = 0.05 M). The three inserts are light micrographs (magnification x 400 times) for emulsion samples of low, medium and high calcium contents. Reproduced from Semenova (2007) with permission.
Fig. 7. An optical transmitted light micrograph of a single H micron carbon fiber in an epoxy matrix. The fiber had not been degassed before encapsulation. The volatile material on the surface vaporized around the time of gelation creating large voids around the fiber... Fig. 7. An optical transmitted light micrograph of a single H micron carbon fiber in an epoxy matrix. The fiber had not been degassed before encapsulation. The volatile material on the surface vaporized around the time of gelation creating large voids around the fiber...
Fig. 8a-c. A polished refleacted light micrograph of a typical carbon fiber-epoxy composite showing the small amount of epoxy between fibers. Volume fraction 52%... [Pg.13]

Fig. 19. Transmitted and polarized light micrographs of a single graphite fiber in an epoxy matrix under axial loading. The fiber and matrix are the same. Only the interphase has been changed. Three different failure modes develop as a result of the interphase alteration. From Drzal et al. 841... Fig. 19. Transmitted and polarized light micrographs of a single graphite fiber in an epoxy matrix under axial loading. The fiber and matrix are the same. Only the interphase has been changed. Three different failure modes develop as a result of the interphase alteration. From Drzal et al. 841...
Figure 4. Light micrograph of a polished surface of a high volatile bituminous coal. The fine banding is caused by groups of sheets which cannot be resolved individually with the light microscope. X 185... Figure 4. Light micrograph of a polished surface of a high volatile bituminous coal. The fine banding is caused by groups of sheets which cannot be resolved individually with the light microscope. X 185...
Figure 12.8 Light micrograph of a bovine adrenal medullary cell in culture with etched and glass-encased carbon-fiber electrodes (r = 5 /xm) placed adjacent to it. Magnification is 450x. [From Ref. 88, reproduced with permission of the copyright holder.]... Figure 12.8 Light micrograph of a bovine adrenal medullary cell in culture with etched and glass-encased carbon-fiber electrodes (r = 5 /xm) placed adjacent to it. Magnification is 450x. [From Ref. 88, reproduced with permission of the copyright holder.]...
Light micrograph of late mitosis in a plant. Microtubules are stained red and chromosomes are counterstained blue. (Courtesy of Andrew Bajer.)... [Pg.626]

Figure 1.7 A polarised light micrograph of liquid crystals. Figure 1.7 A polarised light micrograph of liquid crystals.
FIGURE 2.7 Light micrographs of rat intestinal villi after (a) 4 h perfusion with phenol red (b) 1 h perfusion with phenol red plus 1% NP-POE 10.5 and (c) 1 h perfusion with phenol red plus 1% NP-POE 10.5 followed by a 3 h perfusion with phenol red alone. (From Swenson, E.S., Milisen, W.B., and Curatolo.W., Pharm. Res., 11, 1132,1994. With permission from Springer Science and Business Media.)... [Pg.50]

Fig. 12. Sieve electrode in silicon technology, a SEM, dimensions 1.4 mm X 1.4 mm b light micrograph, sieve with platinum thin-film electrodes... Fig. 12. Sieve electrode in silicon technology, a SEM, dimensions 1.4 mm X 1.4 mm b light micrograph, sieve with platinum thin-film electrodes...
Fig.19. Sieve with integrated cables (length 21 mm) and connection pads (light micrograph)... Fig.19. Sieve with integrated cables (length 21 mm) and connection pads (light micrograph)...
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See also in sourсe #XX -- [ Pg.4 , Pg.23 ]

See also in sourсe #XX -- [ Pg.129 ]



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Carbon fiber composites reflected light micrographs

Liquid crystals polarized light micrographs

Polarized light micrographs

Poly polarized light micrograph

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