The Iron and steel magazine . t time,insuring absolute solidity in the ingot throughout. Another construction of ingot mold is shown in Fig. sides are held in place by grooves in the cross plates, whichare made deep enough to allow for the requisite press holds the molds in place during casting, and therebeing no packing pieces to remove, can at once follow uv> thecontraction until the maximum pressure is reached. The construction of the press which is adopted in this sys-tem is illustrated by the model and by Figs. 1 and 2, Fig. 1illustrating a press of 8,000 tons, an
The Iron and steel magazine . t time,insuring absolute solidity in the ingot throughout. Another construction of ingot mold is shown in Fig. sides are held in place by grooves in the cross plates, whichare made deep enough to allow for the requisite press holds the molds in place during casting, and therebeing no packing pieces to remove, can at once follow uv> thecontraction until the maximum pressure is reached. The construction of the press which is adopted in this sys-tem is illustrated by the model and by Figs. 1 and 2, Fig. 1illustrating a press of 8,000 tons, and Fig. 2 of 5,000 tons. Thevarious parts are as follows: A, A, Pressing Cylinders. B, B, Pushback Cylinders. C, C, Tension Bars. D, D, Steel Straps (in tension). E, E, Cast Iron Packing Blocks (in compression). The length of the ingot molds being generally greater than theirwidth, it is convenient to have two pressing cylinders, as shown, 8000 TONS HYD? PRESS FOR TLUID COMPRESSION OF STEELROBINSON & RODGERS PATENTS 3D ] H. w HD I F,gl
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Keywords: ., bookcentury1800, bookdecade1890, bookidironsteel, booksubjectiron
