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Cross-sectional diagram of tracks worn in films of polyimide-bonded graphite fluoride. Amount of rubbing

Cross-sectional displacement profiles for the four lowest-order shear horizontal plate modes. These profiles are normalized equal power flow per width of the plate.

Cross-sectional distortion after drying of flats y squares y and rounds from representative locations log.

Cross-sectional drawing of a vertical cavity surface emitting laser . Proton implantation is used to channel the current through a small active region. Light is emitted in the direction perpendicular to the plane of the wafer. This makes preparation of two-dimensional arrays quite easy.

Cross-sectional drawing of modified Hassler-sleeve core holder used for Berea 11, Berea 12, and Berea 13 samples,

Cross-sectional drawing of modified Hassler-sleeve core holder used for Berea 18 sample.

Cross-sectional drawing of the experimental eatheter tip for a cryogenic cardiac catheter.

Cross-sectional drawing of water bath, magnetic stirrer, and permeation

Cross-sectional drawings of cables for coal mining Low voltage cable, v

Cross-sectional drawings of high voltage cables for coal mining .

Cross-sectional EBIC micrograph showing passivation of

Cross-sectional electron micrograph of Co Zr multilayer diffusion couple consisting of many alternating layers of Co ami Zr. The thin layers showing bright and dark contrast are Ni while the thicker layers are Zr. The period of the multilayer structure is about 50 nm. The diffusion couple has been reacted for 2 h at 210 C. The gray layers separating the Co and Zr are amorphous 2.41 J

Cross-sectional electron micrographs of Geo.94 Snoo6- Top panel shows atomically flat film surface morphology, middle panel shows the exceptional uniformity of the film fhickness. Bottom panel is a high-resolution electron micrograph of the interface region showing virtually perfect epitaxial growth. Arrows indicate the location of misfit dislocations.

Cross-sectional electron micrographs of possible Ru-based magnetic tunneling

Cross-sectional electron micrographs of unprimed PA oxide. showing complete penetration of primer into the oxide pores .

Cross-sectional electron micrographs taken before and after electrochemical cycling of a PEMFC MEA

Cross-sectional electron microprobe images of four locations of a membrane electrode assembly stack that was subjected to 1,994 uncontrolled start stop cycles. The stack utilized two fuel passes, as shown. As expected by the reverse-current mechanism, the amount of damage depends on the distance from the fuel inlet. Note the changes in the cathode catalyst layer and the presence of platinum in the membrane, especially in the second pass

Cross-sectional electron probe nticro-analysis elemental mapping for phosphorous of a membrane-electrode assembly

Cross-sectional elevation showing construction of air-supported

Cross-sectional energy-dispersive X-ray and micro-FTlR anaiysis of Pt C-based MEA following 200 h of testing at OCV . OCV conditions were as follows

Cross-sectional EPMA analysis on the elemental profile of platinum and fluorine of an MEA after operation for 2,000h at OCV conditions with Hj air 80 C, 100 RH, 150kPa

Cross-sectional FE-SEM images of NiP Cu interfacial region after annealing to 300 C

Cross-sectional FE-SEM images of NiReP Re

Cross-sectional FESEM images of PES modified SWNT with 10 SWNT loading

Cross-sectional FESEM images of PES umnodified SWNT MMM with 10 SWNT loading,



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