VIRTUAL COINING SIMULATION TECHNOLOGY
SOFTWARE TOOL TO ACCELERATE NEW PRODUCT DEVELOPMENT
MICHAEL GROVES, P. ENG.DIRECTOR, DEVELOPMENT & APPLIED TECHNOLOGYROYAL CANADIAN MINT
FEBRUARY 1, 2018
ROYAL CANADIAN MINT’S VISION
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The value we add to Canada and to
Canadians
Our customerdriven
businesses
Our talented people
The Mint’s vision is dedicated to delivering excellence … through
SOLUTION� Finite Element Analysis (FEA) to “virtually strike” c oins
� What is FEA?
� Keys to success for applying FEA @ the RCM
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Input
- Tooling and blank shape- Boundary conditions- Material properties - Interaction properties
Virtual Striking using FEA
Output
- Virtual coins- Stresses/Strains- Striking force- Unfilled areas
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DEVELOPMENT PROCESS
ArtcamModel
PhysicalTooling
Numerous Trials
EXPENSIVESLOW
HIGH RISK
ArtcamModel
VirtualTooling
Simulations
LOW COSTFAST
LOW RISK
Virtual ApproachTraditional “Trial & Error” Approach
Acceptable Product
Acceptable Product
Trial
CASE STUDY: 125TH ANNIVERSARY OF STANLEY CUP COIN
� Complex 3-D coin design
� Irregular shape
� Varying cross-section thickness
�Wire edging
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Real Struck CoinSimulated Coin
Comparison between Virtual and Physical Coin
Material flow not properly timed
� Virtual Minting tool
CASE STUDY: 125TH ANNIVERSARY OF STANLEY CUP COIN
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Real Struck CoinSimulated Coin
� Material flow of the Stanley Cup
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2
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6
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Standard Relief RCM UHR SmartMinting © Extraordinary
High Relief
Ma
x. R
eli
ef
(mm
)
Technology
1 ozt Relief Height
CASE STUDY: EXTRAORDINARY HIGH RELIEF TECHNOLOGY
� Achieve 6mm relief on 1 ozt coin with minimal added cost
� Used Virtual Minting to design coin blank
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Simulated RTS blank at 210 tons Real RTS blank at 210 tons
OTHER MINTING APPLICATIONS
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Die Stress
Other Material Coins
Blanking
Trimming
Die Hobbing
Springback
CONCLUSION
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Virtual Minting Accurately
Predicts Physical Striking
Cost savings and faster
product development Apply Tool to
other Minting Applications
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