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Author Topic: Creating a coin  (Read 1530 times)
Kiki112 (OP)
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January 30, 2014, 09:14:49 AM
 #1

How do you actually make a new coin?

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January 30, 2014, 09:48:32 AM
 #2

How do you actually make a new coin?

http://coingen.io/

I post for interest - not signature spam.
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January 30, 2014, 10:53:52 AM
 #3


Don't encourage them  Grin. If there's one thing we don't need it's more coins.

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January 30, 2014, 02:51:25 PM
 #4

How do you actually make a new coin?

Ancient coins were made by casting in moulds or by striking between engraved dies. The Romans cast their larger copper coins, in clay moulds carrying distinctive markings, not because they knew nothing of striking, but because it was not suitable for such large masses of metal. Casting is now used only by counterfeiters. The most ancient coins were cast in bulletshaped or conical moulds and marked on one side by means of a die which was struck with a hammer. The "blank" or unmarked piece of metal was placed on a small anvil, and the die was held in position with tongs. The reverse or lower side of the coin received a rectangular mark made by the sharp edges of the little anvil. Subsequently the anvil was marked in various ways, and decorated with letters and figures of beasts, and later still the anvil was replaced by a reverse die. The spherical blanks soon gave place to lenticular-shaped ones. The blank was made red-hot and struck between cold dies. One blow was usually insufficient, and the method was similar to that still used in striking medals in high relief, except that the blank is now allowed to cool before being struck. With the substitution of iron for bronze as the material for dies, about 300 AD, the practice of striking the blanks while they were hot was gradually discarded.

In the Middle Ages bars of metal were cast and hammered out on an anvil. Portions of the flattened sheets were then cut out with shears, struck between dies and again trimmed with shears. A similar method had been used in Ancient Egypt under the Ptolemies (c. 300 BC) but had been forgotten. Square pieces of metal were also cut from cast bars, converted into round disks by hammering and then struck between dies. In striking, the lower die was fixed into a block of wood, and the blank piece of metal laid upon it by hand. The upper die was then placed on the blank, and kept in position by means of a holder round which was placed a roll of lead to protect the hand of the operator while heavy blows were struck with a hammer. An early improvement was the introduction of a tool resembling a pair of tongs, the two dies being placed one at the extremity of each leg. This avoided the necessity of readjusting the dies between blows, and ensured greater accuracy in the impression.

Minting by means of a falling weight (monkey press) intervened between the hand hammers and the screw press in many places. In Birmingham in particular this system became highly developed and was long in use. In 1553, the French engineer Aubin Olivier introduced screw presses for striking coins, together with rolls for reducing the cast bars and machines for punching-out round disks from flattened sheets of metal. 8 to 12 men took over from each other every quarter of an hour to maneuver the arms driving the screw which struck the medals. Later, the rolls were driven by horses, mules or water-power.

Henry II came up against hostility on the part of the coin makers, so the process was largely discarded in 1585 and only used for coins of small value, medals and tokens. The system was reintroduced into France by Jean Varin in 1640 and the practice of hammering was forbidden in 1645. In England the new machinery was tried in London in 1561, but abandoned soon afterwards; it was finally adopted in 1662, although the old pieces continued in circulation until 1696.

Industrial techniques and steam-power was introduced to coin manufacture by Matthew Boulton in Birmingham in 1788. By 1786, two-thirds of the coins in circulation in Britain were counterfeit, and the Royal Mint responded to this crisis by shutting itself down, worsening the situation.
The industrialist Mathew Boulton turned his attention to coinage in the mid-1780s as an extension to the small metal products he already manufactured in his factory in Soho. In 1788 he established a Mint as part of his industrial plant. He invented a steam driven screw press in the same year (his original machinery was being used at the Royal Mint until 1881, almost a century later),which worked by atmospheric pressure applied to a piston. The piston was in communication with a vacuum vessel from which the air had been pumped by steam power.

He installed eight of these state-of-the-art steam-driven presses in his factory, each with the capacity to strike between 70 and 84 coins per minute. The firm had little immediate success getting a license to strike British coins, but was soon engaged in striking coins for the British East India Company, Sierra Leone and Russia, while producing high-quality planchets, or blank coins, to be struck by national mints elsewhere. The firm sent over 20 million blanks to Philadelphia, to be struck into cents and half-cents by the United States Mint - Mint Director Elias Boudinot found them to be "perfect and beautifully polished".

These were the first truly modern coins; - the mass-production of coinage with steam driven machinery organised in factories, enabled the achievement of standardized dimensions and uniform weight and roundness, something no counterfeiter of the day could hope to achieve.
Boulton also pioneered special methods to further frustrate counterfeiters. Designed by Heinrich Küchler, the coins featured a raised rim with incuse or sunken letters and numbers. The high-technology of Soho Mint gained increasing and somewhat unwelcome attention: rivals attempted industrial espionage, while lobbying with the Government for Boulton's mint to be shut down.

Boulton was finally awarded a contract by the Royal Mint in 3 March 1797, after a national financial crisis reached its nadir when the Bank of England suspended convertibility of it's notes for gold. The twopenny coins measured exactly an inch and a half across; 16 pennies lined up would reach two feet.

Between 1817 and 1830 the German engineer Dietrich "Diedrich" Uhlhorn invented the Presse Monétaire (level coin press known as Uhlhorn Press) which bears his name. Uhlhorn invented a new type of minting press (steam driven knuckle-lever press) that made him internationally famous; over 500 of the units had been sold by 1940. The advanced construction of the Uhlhorn press proved to be highly satisfactory, and the use of the screw press for general coinage was gradually eliminated.

This new technology was used at the Birmingham Mint, the largest private mint in the world for much of the 19th century, and was further improved at the Taylor and Challen who began to supply complete press room equipment to national mints around the world, such as Sydney Mint, Australia.

By the early 20th century, mints were using electrical power to drive rolls, the advantage being that each pair of rolls could be driven independently without the intervention of cumbrous shafting.
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January 30, 2014, 03:48:30 PM
 #5

How do you actually make a new coin?

Ancient coins were made by casting in moulds or by striking between engraved dies. The Romans cast their larger copper coins, in clay moulds carrying distinctive markings, not because they knew nothing of striking, but because it was not suitable for such large masses of metal. Casting is now used only by counterfeiters. The most ancient coins were cast in bulletshaped or conical moulds and marked on one side by means of a die which was struck with a hammer. The "blank" or unmarked piece of metal was placed on a small anvil, and the die was held in position with tongs. The reverse or lower side of the coin received a rectangular mark made by the sharp edges of the little anvil. Subsequently the anvil was marked in various ways, and decorated with letters and figures of beasts, and later still the anvil was replaced by a reverse die. The spherical blanks soon gave place to lenticular-shaped ones. The blank was made red-hot and struck between cold dies. One blow was usually insufficient, and the method was similar to that still used in striking medals in high relief, except that the blank is now allowed to cool before being struck. With the substitution of iron for bronze as the material for dies, about 300 AD, the practice of striking the blanks while they were hot was gradually discarded.

In the Middle Ages bars of metal were cast and hammered out on an anvil. Portions of the flattened sheets were then cut out with shears, struck between dies and again trimmed with shears. A similar method had been used in Ancient Egypt under the Ptolemies (c. 300 BC) but had been forgotten. Square pieces of metal were also cut from cast bars, converted into round disks by hammering and then struck between dies. In striking, the lower die was fixed into a block of wood, and the blank piece of metal laid upon it by hand. The upper die was then placed on the blank, and kept in position by means of a holder round which was placed a roll of lead to protect the hand of the operator while heavy blows were struck with a hammer. An early improvement was the introduction of a tool resembling a pair of tongs, the two dies being placed one at the extremity of each leg. This avoided the necessity of readjusting the dies between blows, and ensured greater accuracy in the impression.

Minting by means of a falling weight (monkey press) intervened between the hand hammers and the screw press in many places. In Birmingham in particular this system became highly developed and was long in use. In 1553, the French engineer Aubin Olivier introduced screw presses for striking coins, together with rolls for reducing the cast bars and machines for punching-out round disks from flattened sheets of metal. 8 to 12 men took over from each other every quarter of an hour to maneuver the arms driving the screw which struck the medals. Later, the rolls were driven by horses, mules or water-power.

Henry II came up against hostility on the part of the coin makers, so the process was largely discarded in 1585 and only used for coins of small value, medals and tokens. The system was reintroduced into France by Jean Varin in 1640 and the practice of hammering was forbidden in 1645. In England the new machinery was tried in London in 1561, but abandoned soon afterwards; it was finally adopted in 1662, although the old pieces continued in circulation until 1696.

Industrial techniques and steam-power was introduced to coin manufacture by Matthew Boulton in Birmingham in 1788. By 1786, two-thirds of the coins in circulation in Britain were counterfeit, and the Royal Mint responded to this crisis by shutting itself down, worsening the situation.
The industrialist Mathew Boulton turned his attention to coinage in the mid-1780s as an extension to the small metal products he already manufactured in his factory in Soho. In 1788 he established a Mint as part of his industrial plant. He invented a steam driven screw press in the same year (his original machinery was being used at the Royal Mint until 1881, almost a century later),which worked by atmospheric pressure applied to a piston. The piston was in communication with a vacuum vessel from which the air had been pumped by steam power.

He installed eight of these state-of-the-art steam-driven presses in his factory, each with the capacity to strike between 70 and 84 coins per minute. The firm had little immediate success getting a license to strike British coins, but was soon engaged in striking coins for the British East India Company, Sierra Leone and Russia, while producing high-quality planchets, or blank coins, to be struck by national mints elsewhere. The firm sent over 20 million blanks to Philadelphia, to be struck into cents and half-cents by the United States Mint - Mint Director Elias Boudinot found them to be "perfect and beautifully polished".

These were the first truly modern coins; - the mass-production of coinage with steam driven machinery organised in factories, enabled the achievement of standardized dimensions and uniform weight and roundness, something no counterfeiter of the day could hope to achieve.
Boulton also pioneered special methods to further frustrate counterfeiters. Designed by Heinrich Küchler, the coins featured a raised rim with incuse or sunken letters and numbers. The high-technology of Soho Mint gained increasing and somewhat unwelcome attention: rivals attempted industrial espionage, while lobbying with the Government for Boulton's mint to be shut down.

Boulton was finally awarded a contract by the Royal Mint in 3 March 1797, after a national financial crisis reached its nadir when the Bank of England suspended convertibility of it's notes for gold. The twopenny coins measured exactly an inch and a half across; 16 pennies lined up would reach two feet.

Between 1817 and 1830 the German engineer Dietrich "Diedrich" Uhlhorn invented the Presse Monétaire (level coin press known as Uhlhorn Press) which bears his name. Uhlhorn invented a new type of minting press (steam driven knuckle-lever press) that made him internationally famous; over 500 of the units had been sold by 1940. The advanced construction of the Uhlhorn press proved to be highly satisfactory, and the use of the screw press for general coinage was gradually eliminated.

This new technology was used at the Birmingham Mint, the largest private mint in the world for much of the 19th century, and was further improved at the Taylor and Challen who began to supply complete press room equipment to national mints around the world, such as Sydney Mint, Australia.

By the early 20th century, mints were using electrical power to drive rolls, the advantage being that each pair of rolls could be driven independently without the intervention of cumbrous shafting.

+1
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January 30, 2014, 03:52:12 PM
 #6

How do you actually make a new coin?

Creating a coin is a lot like painting a painting. Get some paint and a canvas and in under 5 minutes you can have a painting.

The question becomes, "how do I create a masterpiece?"
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January 30, 2014, 05:00:42 PM
 #7

+1 GREAT

So True Smiley

How do you actually make a new coin?

Creating a coin is a lot like painting a painting. Get some paint and a canvas and in under 5 minutes you can have a painting.

The question becomes, "how do I create a masterpiece?"
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January 30, 2014, 05:03:54 PM
 #8

How do you actually make a new coin?

Creating a coin is a lot like painting a painting. Get some paint and a canvas and in under 5 minutes you can have a painting.

The question becomes, "how do I create a masterpiece?"
In your case, the canvas was picked out of a dumpster.

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January 30, 2014, 05:04:21 PM
 #9


Is this why there has been so many coins coming out that have been almost identical.

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January 30, 2014, 05:21:02 PM
 #10


Is this why there has been so many coins coming out that have been almost identical.

You don't even need that site. Just clone another coin yourself and release it.

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January 30, 2014, 05:25:04 PM
 #11

How do you actually make a new coin?

Ancient coins were made by casting in moulds or by striking between engraved dies. The Romans cast their larger copper coins, in clay moulds carrying distinctive markings, not because they knew nothing of striking, but because it was not suitable for such large masses of metal. Casting is now used only by counterfeiters. The most ancient coins were cast in bulletshaped or conical moulds and marked on one side by means of a die which was struck with a hammer. The "blank" or unmarked piece of metal was placed on a small anvil, and the die was held in position with tongs. The reverse or lower side of the coin received a rectangular mark made by the sharp edges of the little anvil. Subsequently the anvil was marked in various ways, and decorated with letters and figures of beasts, and later still the anvil was replaced by a reverse die. The spherical blanks soon gave place to lenticular-shaped ones. The blank was made red-hot and struck between cold dies. One blow was usually insufficient, and the method was similar to that still used in striking medals in high relief, except that the blank is now allowed to cool before being struck. With the substitution of iron for bronze as the material for dies, about 300 AD, the practice of striking the blanks while they were hot was gradually discarded.

In the Middle Ages bars of metal were cast and hammered out on an anvil. Portions of the flattened sheets were then cut out with shears, struck between dies and again trimmed with shears. A similar method had been used in Ancient Egypt under the Ptolemies (c. 300 BC) but had been forgotten. Square pieces of metal were also cut from cast bars, converted into round disks by hammering and then struck between dies. In striking, the lower die was fixed into a block of wood, and the blank piece of metal laid upon it by hand. The upper die was then placed on the blank, and kept in position by means of a holder round which was placed a roll of lead to protect the hand of the operator while heavy blows were struck with a hammer. An early improvement was the introduction of a tool resembling a pair of tongs, the two dies being placed one at the extremity of each leg. This avoided the necessity of readjusting the dies between blows, and ensured greater accuracy in the impression.

Minting by means of a falling weight (monkey press) intervened between the hand hammers and the screw press in many places. In Birmingham in particular this system became highly developed and was long in use. In 1553, the French engineer Aubin Olivier introduced screw presses for striking coins, together with rolls for reducing the cast bars and machines for punching-out round disks from flattened sheets of metal. 8 to 12 men took over from each other every quarter of an hour to maneuver the arms driving the screw which struck the medals. Later, the rolls were driven by horses, mules or water-power.

Henry II came up against hostility on the part of the coin makers, so the process was largely discarded in 1585 and only used for coins of small value, medals and tokens. The system was reintroduced into France by Jean Varin in 1640 and the practice of hammering was forbidden in 1645. In England the new machinery was tried in London in 1561, but abandoned soon afterwards; it was finally adopted in 1662, although the old pieces continued in circulation until 1696.

Industrial techniques and steam-power was introduced to coin manufacture by Matthew Boulton in Birmingham in 1788. By 1786, two-thirds of the coins in circulation in Britain were counterfeit, and the Royal Mint responded to this crisis by shutting itself down, worsening the situation.
The industrialist Mathew Boulton turned his attention to coinage in the mid-1780s as an extension to the small metal products he already manufactured in his factory in Soho. In 1788 he established a Mint as part of his industrial plant. He invented a steam driven screw press in the same year (his original machinery was being used at the Royal Mint until 1881, almost a century later),which worked by atmospheric pressure applied to a piston. The piston was in communication with a vacuum vessel from which the air had been pumped by steam power.

He installed eight of these state-of-the-art steam-driven presses in his factory, each with the capacity to strike between 70 and 84 coins per minute. The firm had little immediate success getting a license to strike British coins, but was soon engaged in striking coins for the British East India Company, Sierra Leone and Russia, while producing high-quality planchets, or blank coins, to be struck by national mints elsewhere. The firm sent over 20 million blanks to Philadelphia, to be struck into cents and half-cents by the United States Mint - Mint Director Elias Boudinot found them to be "perfect and beautifully polished".

These were the first truly modern coins; - the mass-production of coinage with steam driven machinery organised in factories, enabled the achievement of standardized dimensions and uniform weight and roundness, something no counterfeiter of the day could hope to achieve.
Boulton also pioneered special methods to further frustrate counterfeiters. Designed by Heinrich Küchler, the coins featured a raised rim with incuse or sunken letters and numbers. The high-technology of Soho Mint gained increasing and somewhat unwelcome attention: rivals attempted industrial espionage, while lobbying with the Government for Boulton's mint to be shut down.

Boulton was finally awarded a contract by the Royal Mint in 3 March 1797, after a national financial crisis reached its nadir when the Bank of England suspended convertibility of it's notes for gold. The twopenny coins measured exactly an inch and a half across; 16 pennies lined up would reach two feet.

Between 1817 and 1830 the German engineer Dietrich "Diedrich" Uhlhorn invented the Presse Monétaire (level coin press known as Uhlhorn Press) which bears his name. Uhlhorn invented a new type of minting press (steam driven knuckle-lever press) that made him internationally famous; over 500 of the units had been sold by 1940. The advanced construction of the Uhlhorn press proved to be highly satisfactory, and the use of the screw press for general coinage was gradually eliminated.

This new technology was used at the Birmingham Mint, the largest private mint in the world for much of the 19th century, and was further improved at the Taylor and Challen who began to supply complete press room equipment to national mints around the world, such as Sydney Mint, Australia.

By the early 20th century, mints were using electrical power to drive rolls, the advantage being that each pair of rolls could be driven independently without the intervention of cumbrous shafting.

HAHAHAHAHAHAHA Made My Day Thanks
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January 30, 2014, 06:16:20 PM
 #12

How do you actually make a new coin?

Ancient coins were made by casting in moulds ... cumbrous shafting.

BAHAHA!!
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January 30, 2014, 06:28:43 PM
 #13

How do you actually make a new coin?
If you don't know how to do it yourself, best to learn and not get someone to do it for you.  or your coin will die.

trust me if your not sure stick to mining, launching a coin take a lot of your time and is a commitment.


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January 30, 2014, 06:33:56 PM
 #14


Is this why there has been so many coins coming out that have been almost identical.

You don't even need that site. Just clone another coin yourself and release it.

Sounds like a lot of effort I don't want to create my own coin but I can see that the site and cloning is why there is so many stupid alt coins coming out and every one things they all will be successful.

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January 30, 2014, 07:06:13 PM
 #15



Sounds like a lot of effort I don't want to create my own coin but I can see that the site and cloning is why there is so many stupid alt coins coming out and every one thinks they all will be successful.

Look for the coin with a name that's been used throughout human history to mean value and you will have found a gem among pebbles.
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January 30, 2014, 08:18:02 PM
 #16


wow

that's extremly cheap Cheesy

but how do you create a pool?

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January 30, 2014, 08:18:48 PM
 #17

You get what you pay for.

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January 30, 2014, 08:23:59 PM
 #18



Sounds like a lot of effort I don't want to create my own coin but I can see that the site and cloning is why there is so many stupid alt coins coming out and every one thinks they all will be successful.

Look for the coin with a name that's been used throughout human history to mean value and you will have found a gem among pebbles.

 Roll Eyes

Because a clone of litecoin is totally different because it's called gold.


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January 30, 2014, 08:32:39 PM
 #19

so I googled it

turns out coingen.io is a scam

0.05BTC for your own coin seems too cheap as it really is Cheesy

http://www.digitaltrends.com/cool-tech/coingen-bitcoin-litecoin/

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January 30, 2014, 08:40:43 PM
 #20

How do you actually make a new coin?

Ancient coins were made by casting in moulds or by striking between engraved dies. The Romans cast their larger copper coins, in clay moulds carrying distinctive markings, not because they knew nothing of striking, but because it was not suitable for such large masses of metal. Casting is now used only by counterfeiters. The most ancient coins were cast in bulletshaped or conical moulds and marked on one side by means of a die which was struck with a hammer. The "blank" or unmarked piece of metal was placed on a small anvil, and the die was held in position with tongs. The reverse or lower side of the coin received a rectangular mark made by the sharp edges of the little anvil. Subsequently the anvil was marked in various ways, and decorated with letters and figures of beasts, and later still the anvil was replaced by a reverse die. The spherical blanks soon gave place to lenticular-shaped ones. The blank was made red-hot and struck between cold dies. One blow was usually insufficient, and the method was similar to that still used in striking medals in high relief, except that the blank is now allowed to cool before being struck. With the substitution of iron for bronze as the material for dies, about 300 AD, the practice of striking the blanks while they were hot was gradually discarded.

In the Middle Ages bars of metal were cast and hammered out on an anvil. Portions of the flattened sheets were then cut out with shears, struck between dies and again trimmed with shears. A similar method had been used in Ancient Egypt under the Ptolemies (c. 300 BC) but had been forgotten. Square pieces of metal were also cut from cast bars, converted into round disks by hammering and then struck between dies. In striking, the lower die was fixed into a block of wood, and the blank piece of metal laid upon it by hand. The upper die was then placed on the blank, and kept in position by means of a holder round which was placed a roll of lead to protect the hand of the operator while heavy blows were struck with a hammer. An early improvement was the introduction of a tool resembling a pair of tongs, the two dies being placed one at the extremity of each leg. This avoided the necessity of readjusting the dies between blows, and ensured greater accuracy in the impression.

Minting by means of a falling weight (monkey press) intervened between the hand hammers and the screw press in many places. In Birmingham in particular this system became highly developed and was long in use. In 1553, the French engineer Aubin Olivier introduced screw presses for striking coins, together with rolls for reducing the cast bars and machines for punching-out round disks from flattened sheets of metal. 8 to 12 men took over from each other every quarter of an hour to maneuver the arms driving the screw which struck the medals. Later, the rolls were driven by horses, mules or water-power.

Henry II came up against hostility on the part of the coin makers, so the process was largely discarded in 1585 and only used for coins of small value, medals and tokens. The system was reintroduced into France by Jean Varin in 1640 and the practice of hammering was forbidden in 1645. In England the new machinery was tried in London in 1561, but abandoned soon afterwards; it was finally adopted in 1662, although the old pieces continued in circulation until 1696.

Industrial techniques and steam-power was introduced to coin manufacture by Matthew Boulton in Birmingham in 1788. By 1786, two-thirds of the coins in circulation in Britain were counterfeit, and the Royal Mint responded to this crisis by shutting itself down, worsening the situation.
The industrialist Mathew Boulton turned his attention to coinage in the mid-1780s as an extension to the small metal products he already manufactured in his factory in Soho. In 1788 he established a Mint as part of his industrial plant. He invented a steam driven screw press in the same year (his original machinery was being used at the Royal Mint until 1881, almost a century later),which worked by atmospheric pressure applied to a piston. The piston was in communication with a vacuum vessel from which the air had been pumped by steam power.

He installed eight of these state-of-the-art steam-driven presses in his factory, each with the capacity to strike between 70 and 84 coins per minute. The firm had little immediate success getting a license to strike British coins, but was soon engaged in striking coins for the British East India Company, Sierra Leone and Russia, while producing high-quality planchets, or blank coins, to be struck by national mints elsewhere. The firm sent over 20 million blanks to Philadelphia, to be struck into cents and half-cents by the United States Mint - Mint Director Elias Boudinot found them to be "perfect and beautifully polished".

These were the first truly modern coins; - the mass-production of coinage with steam driven machinery organised in factories, enabled the achievement of standardized dimensions and uniform weight and roundness, something no counterfeiter of the day could hope to achieve.
Boulton also pioneered special methods to further frustrate counterfeiters. Designed by Heinrich Küchler, the coins featured a raised rim with incuse or sunken letters and numbers. The high-technology of Soho Mint gained increasing and somewhat unwelcome attention: rivals attempted industrial espionage, while lobbying with the Government for Boulton's mint to be shut down.

Boulton was finally awarded a contract by the Royal Mint in 3 March 1797, after a national financial crisis reached its nadir when the Bank of England suspended convertibility of it's notes for gold. The twopenny coins measured exactly an inch and a half across; 16 pennies lined up would reach two feet.

Between 1817 and 1830 the German engineer Dietrich "Diedrich" Uhlhorn invented the Presse Monétaire (level coin press known as Uhlhorn Press) which bears his name. Uhlhorn invented a new type of minting press (steam driven knuckle-lever press) that made him internationally famous; over 500 of the units had been sold by 1940. The advanced construction of the Uhlhorn press proved to be highly satisfactory, and the use of the screw press for general coinage was gradually eliminated.

This new technology was used at the Birmingham Mint, the largest private mint in the world for much of the 19th century, and was further improved at the Taylor and Challen who began to supply complete press room equipment to national mints around the world, such as Sydney Mint, Australia.

By the early 20th century, mints were using electrical power to drive rolls, the advantage being that each pair of rolls could be driven independently without the intervention of cumbrous shafting.

You just won the Internet sir.
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