Search Results for plates

Fig. 15 Face plates, vacuum plates, and shaping plates of a hollow profile process More

Fig. 34 Location of the crystallographic growth axes of tin plates (small circles) and the plate interface plane traces (line through small circles) from large grains of several experiments. More

Fig. 2 Ball mill liner plates. (a) New condition, before installation. (b) Worn condition, with partially worn grinding belt More

Fig. 21 Cracking in floor-beam-girder connection plates. (a) Cracks in the outside web surface. (b) Cracks from the inside web surface More

Fig. 20 Fatigue-fracture zones in aluminum alloy 7075-T6 plates. (a) Fatigue crack that grew as a flat-face fracture with a shallow convex crack front. (b) Change in orientation of fatigue fracture from plane strain (arrow A) to plane stress (arrow B). More

Fig. 14 Photograph of the movable (top) and stationary (bottom) wear plates from the jaw crusher. The feed moves across the plates from left to right, so the most severe wear occurs at the exit area toward the right. More

Fig. 18 Macrographs of new (left) and worn (right) attrition mill wear plates More

Fig. 16 (a) Pack rust between two plates. (b) Stratified rust on the top of a steel flange. Courtesy of KTA-Tator, Inc. More

Fig. 17 Temperature of the clamping plate if cooling plates and thermal insulations are used together. Source: Ref 27 More

Fig. 11 Stripping with spring-loaded and positive stripper plates More

Fig. 13 Clad plates after final processing More

Fig. 8 Stress analysis of the rolling of plates. (a) Top view of the rolled plate. (b) Stresses in the rolling direction. (c) Stresses in the transverse direction. Source: Ref 20 More

Fig. 36 Overlap and fishtail formed during rolling of slabs and plates. Overlap is the result of nonuniform deformation in thickness, while fishtail is caused by nonuniform deformation in width More

Fig. 36 Setup for grinding a thin-web gear. Damper plates prevent excessive vibration. Dimensions in figure given in inches Gear details Type Involute spur Number of teeth 63 Diametral pitch 12 Pressure angle 20° Tolerance  Involute error, mm (in.)  0.005 More

Fig. 5 An array of pickoff plates combined to form one fixture equivalent to several standard fixtures, thereby permitting rapid changeover More

Fig. 13 Tools and clamping plates for controlling metal flow in press forming the part shown. Dimensions given in inches More

Fig. 12 Pearlitic microstructure with Widmanstätten cementite plates acting as nucleation sites. Source: Ref 10 More

Fig. 9 Micrograph of Fe-32Ni martensite plates. Note the presence of midrib in both plates. Plate 1 shows fine structure consisting of twins. Source: Ref 2 More

Fig. 24 Plates of a phase in α matrix of retained β phase with Ti 2 Ni precipitation at the plate boundaries in a Ti-4Ni alloy, solution treated at 1000 °C (1800 °F) for 20 min and isothermally transformed at 750 °C (1400 °F) for 1 h. 95% H 2 O, 4% HNO 3 , 1% HF. 1000×. Source: Ref 34 More

Fig. 24 Pearlite with lamellar appearance in only some regions, with short plates or globular particles of cementite in other regions. 0.6% C steel (0.61C-0.08Si-0.60Mn) austenitized at 860 °C (1580 °F) and isothermally transformed at 705 °C (1300 °F) for 17 h. 185 HV. Picral etch. Original More