Search Results for silicon carbide

Fig. 7 Carbon KVV Auger spectra from molybdenum carbide (Mo 2 C), silicon carbide (SiC), and graphite. Source: Ref 13 More

Fig. 24 Flat R -curves for silicon nitride and silicon carbide chevron notched, three-point bend (CNB) specimens at room temperature. Source: Ref 45 More

Fig. 1 Standard marking system for conventional aluminum oxide and silicon carbide abrasive grinding wheels More

Fig. 19 Siliconized silicon carbide heat-exchanger tube vapor deposited with TiO 2 . Silicon carbide is gray-tan, silicon is yellow, and an iron-nickel-silicon intermetallic is violet. 500×. (R. Crouse) More

Fig. 17 Silicon carbide recuperator/burner nozzle. Courtesy of Eclipse Combustion More

Fig. 2 Discontinuous silicon carbide/aluminum castings. Pictured are a sand cast automotive disk brake rotor and upper control arm, a permanent mold cast piston, a high-pressure die cast bicycle sprocket, an investment cast aircraft hydraulic manifold, and three investment cast engine cylinder More

Fig. 13 Discontinuous silicon carbide/aluminum MMC (60 vol% SiC) produced by the PRIMEX TM process. (a) Near-net-shape components fabricated from the composite. (b) Composite microstructure. Courtesy of Lanxide Corporation More

Fig. 18 Induction-hardened gear tooth polished with silicon carbide abrasive paper and etched with 10% nital. Courtesy of Materials Evaluation and Engineering, Inc. More

Fig. 20 SEM of 240-grit silicon carbide paper. Original magnification: 500× More

Fig. 21 SEM of 320-grit silicon carbide paper. Original magnification: 500× More

Fig. 22 SEM of 600-grit silicon carbide paper. Original magnification: 200× More

Fig. 23 SEM of 240-grit silicon carbide paper from second manufacturer. Original magnification: 200× More

Fig. 24 Cross-sectional view of 240-grit silicon carbide paper. Original magnification 200× More

Fig. 31 Surface of fused silica abraded with 220-grade silicon carbide abrasive under constant load. (a) Two-body abrasion. Fresh, sharp abrasive particles. SEM; original magnification: 300×. (b) Two-body abrasion. Worn, blunt abrasive particles. Optical micrograph after etching; original More

Fig. 22 Cross-sectional view of a typical silicon carbide composite coating. 1000× More

Fig. 1 Silicon carbide “glo-bar” crucible furnace at 1650 °C (3000 °F). Courtesy of Corning Incorporated—Advanced Materials Processing Lab More

Fig. 9 Cross sections of 120-grit silicon carbide paper that was polished using diamond polishing compound. (a) Unused paper. Bright-field illumination, 50× objective. (b) After the preparation of one sample. A more uniform surface can be observed as compared to the surface shown More

Fig. 37 Effects of codeposited silicon carbide particles and phosphide precipitates on wear of electrodeposited nickel heat treated for 1 h at 400 °C (750 °F). Source: Ref 23 More

Fig. 1 Standard marking system for conventional aluminum oxide and silicon carbide abrasive grinding wheels More

Fig. 5 Topography of silicon carbide whisker-reinforced alumina surfaces to be joined. (a) Ground, R q of 0.35 μm (14 μin.). (b) Ground/polished, R q of 0.04 μm (1.6 μin.). 3000× More