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Cross-sectional images of equilibrium membrane wrapping around particle at various values of adhesion energy and excess membrane area Images .

Cross-sectional images of Hertzian contact zone in fine microstructured silicon nitride which does not exhibit a pronounced R-curve, and a coarse

Cross-sectional images of PA-6 joints examined by SEM for low and high laser powers.

Cross-sectional images of the specimen shown in

Cross-sectional images of the structures with different PSC layer thickness, taken after the growth

Cross-sectional map of displacement in Y direction under impoundment conditions.

Cross-sectional map of displacement in Y direction under seismic conditions.

Cross-sectional micro-structure views for the cathode, .

Cross-sectional micrographs

Cross-sectional micrographs of a phloem fibre cap in a vascular bundle of a bamboo culm, AFM phase images of the nanoscale structure in the fibre cell wall

Cross-sectional micrographs of the annealedfilms at 1250 C for 2 hrs. a The same sample as shown in

Cross-sectional micrographs of the films deposited on Si substrates for 20 min at the condition of reagent concentration of 2.75 flow rates of oxygen and liquidfuel of

Cross-sectional micrographs of the YSZ films on Si 5.0x10 M, for 20 min.

Cross-sectional microscope images in a rat kindling model of epilepsy shows a dramatic increase in fluorescence at 635 nm using 400 nm excitation light.

Cross-sectional microstmciure of a porous glass membrane Courtesy of Aisahi Glass

Cross-sectional microstructure of YSZ film prepared by LCVD,

Cross-sectional morphologies of some of the rayon fibers, trilobal. Sources

Cross-sectional morphologies of TiN Si3N4 coating with optimum Si content of 10.8 at. and hardness of 47.1 GPa deposited by reactive magnetron sputtering.

Cross-sectional observation, by transmission electron microscopy, offlat islands of epitaxial zirconia an a sapphire substrate

Cross-sectional optical micrograph of a Pt-modified 5-NiAl diffusion coating on a Ni-base superalloy.

Cross-sectional optical micrograph showing the subsurface region in a commercial, high-temperature alloy after long-term oxidation. The subsurface region consists of large voids and smaller oxide precipitates .

Cross-sectional optical micrographs of a macropore formed by anodization of 30 aqueous HF 20 Q cm,

Cross-sectional optical micrographs of alloys 602 CA and 617 after cyclic oxidation .

Cross-sectional outline of the microcavity fluidic dye laser. The laser dye is pumped through a microfluidic channel. The laser cavity is formed mside the microfluidic channel by metal mirrors, deposited on the top and bottom glass wafers. The microcavity fluidic dye laser is pumped optically by an external laser, and output is emitted through the semitransparent top mirror

Cross-sectional plots through 1 15 of pressure and burn fraction showing the heterogeneous PBX-9404 reaction region.



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