Here's another entry from Dick Johnson's Encyclopedia of Coin and Medal Terminology. We collectors focus on the end product of the manufacturing process, but there's much to be learned about coins and medals by understanding the way they're made. Computer design techniques are changing the modern process, but aspects of the traditional method remain. Here's how designs are duplicated in hard metal. Even a coin initially designed on a computer screen must still be struck from a die to create the end product.
-Editor
Hubbing Press.
A press of tremendous power, used to duplicate a design in metal from a hard master to a soft steel block. Also called multiplying press, such a press is employed to duplicate dies by forcing two steel blocks into each other, called a squeeze. One steel block contains the design to be reproduced, it is hardened.
The other steel block has been prepared to receive the design by: (1) smoothing the top and bottom, making the two surfaces absolutely parallel, (2) machining a cone or dome on the top, (3) polishing smooth the cone or dome surface to receive the design, and (4) by annealing the steel until die body is dead soft. The hub and the prepared die block are placed within a hubbing retainer, a collar to hold the two in correct alignment during the squeeze.
Early screw presses were employed to do basic hubbing and continued to be used for nearly 400 years. In the 19th century specialized screw presses were built to do only hubbing by making heavier frames, longer cross beams and counterweights for greater leverage. In the 20th century hubbing presses have seen their greatest improvement, with greater pressure by hydraulic power and compressed oil or water in a closed chamber providing the powerful force.
History of hubbing presses. Very primitive hubbing occurred by forging a hard steel into a soft steel with a heavy hammer blow; this was how hubbing was use until the early 16th century. Undoubtedly when the first screw presses was developed (about 1506) the same press used for striking would also be used for hubbing (if the screw press operator could exert enough pressure). The U.S. Mint accomplished this by removing the feed and ejection mechanisms of the steam powered press to do the hubbing.
Manual screw presses were used from the 16th century even up to the 20th
century. However once the collar and ejection system, or the automatic feed and delivery mechanism were installed into the screw press for striking (both developed about 1790), the press used for striking was no longer available for hubbing. Thus mints required separate screw presses, the largest and strongest was reserved for hubbing, all others for coining. The Royal Mint, London, developed a specialized screw press used only for hubbing in the early 1850s.
Hubbing requires two to three times the pressure used to strike coins, but this was accomplished by man power. Two stout men were required on opposite ends of a balance beam, by pressing on the beam and walking in a circle around the press drove the shank downward (by spindle threads). The hub and die blank were pressed into each other to effect the squeeze. Hubbing presses were made of heavy frames, with longer beams and counterweights added to gain more leverage.
It was only when hubbing presses became hydraulic (and operated by electricity after 1890) that manually operated hubbing presses with screw mechanism were replaced, although the British Royal Mint had an electrified screw press in the 1950s and 1960s which it used for hubbing.
Modern hubbing press characteristics. The modern hubbing press contains a
bed, two shanks, and a gauge to indicate the power derived by the hydraulic force. Hubbing presses for coin and medal die hubbing range from 300 to 1000 tons pressure per square inch.
The time in which the squeeze occurs (closing speed) is important – slower is better – and modern presses have been improved to control not only the closing speed but also to control a longer dwel when the shanks are fully extended (this allows more flow time for surface movement). Also modern hubbing presses control initial impact, pressing speeds, pressure, thickness and depth penetration.
Specialized hubbing presses can also be either upstroke or downstroke – the direction in which the power is derived. A lever turns on/off the hydraulic valve; when turned on the hydraulic power forces the two shanks, one with the bed containing the hub and die, together. Modern presses have the hubbing occur behind a glass door. The glass is bulletproof. Hubs and dies could break during hubbing and they sometimes explode in all directions. Should such die shrapnel hit a person it is powerful enough to kill.
Thus hubbing presses are quite dangerous and are operated only by trained pressmen. Every precaution is taken that the hubbing be accomplished by safe techniques.
References:
C66 {1988} Cooper pp [early] 159-165, [modern] 235.
O37 {1977} Julian.
To read the complete entry on the Newman Numismatic Portal, see:
Hubbing Press
(https://nnp.wustl.edu/library/dictionarydetail/516071)
Wayne Homren, Editor
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