Moldflow Summit 2019 Low Constant Pressure Molding Simulation
Transcript of Moldflow Summit 2019 Low Constant Pressure Molding Simulation
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© 2018 Autodesk, Inc.
Moldflow Summit 2019Low Constant Pressure Molding Simulation
Dan LumpkinVice President of Manufacturing – iMFLUX – [email protected]
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Low Constant Pressure Molding:The iMFLUX ‘Green Curve”
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• 25%-50% Lower Pressures• Up to 40% Reduction in Clamp• Faster Cycle Time Possible• Automated/Autonomous Molding• Intelligent Feedback to Engineers• New Design Freedoms
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Constantly adjusting melt front velocity
Identifies minimum pressure to fill the system
Holds that pressure constant at all times
Cavity tells the machine how to behave
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Machine Changes
Material Changes
Mold Behavior
Environmental Changes
Changes velocity profiles to hold pressure constant as it fills
Adjusts end of fill pressure basedon melt position
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Downed cavities
Check ring slips/leaks
Heater band faults
Material changes
Adapts pressure curveto viscosity changes
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iMFLUXConventional
iMFLUX Conventional
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The Green Curve Enables
FASTER CYCLES
MATERIAL FLEXIBILTY
HIGHERQUALITY
PRESSUE &TONNAGE
REDUCTION
LIGHTWEIGHTING
SUSTAINABILITYADVANTAGES
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The Green Curve Enables
FASTER CYCLES
MATERIAL FLEXIBILTY
HIGHERQUALITY
PRESSUE &TONNAGE
REDUCTION
LIGHTWEIGHTING
SUSTAINABILITYADVANTAGES
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Lower Mold Temperatures
Re-Invest Pressure Savings
Lower Melt Temperatures
Less Shear Heat
Reduce cycle times
Re-invest some pressure savings in the form of lower temps
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Up Cavitation
Lower Pressure
Lower Clamp Force
Design Flexibility
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Easier to Maintain Quality
Wide Viscosity Ranges
Adaptive & Automated
Less Operator Interventions
20-25% WiderSpec Resins
Possible
20-25%Tighter
Dimensional Controle.g. the same part molded
under the same conditions can be delivered
conventionally with a +/- 8 MFI range, iMFLUX will
allow +/- 10 MFI
e.g. all things equal, iMFLUX will mold the same part using the same material with a 24% tighter dimensional range than
conventional molding
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PARTNER WITH WORLD CLASS TECHNOLOGY PROVIDERS
TO UNLOCK ALL THE BENEFITS OF OUR
TECHNOLOGY
PROVIDE IMFLUX & MOLDFLOW CUSTOMERS THE ABILITYTO SIMULATE THE IMFLUX
PROCESS
OUR VISIONOUR PURPOSE
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How to Simulate the Process
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STRIP FILES& PRESSURE
CURVES
UNIQUEPROCESSSET-UPS
ITTERATIVEANALYSESROUTINES
WISHFORS
1 2 3 4
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Projected Area Sq inch 6.3
Estimated Tons/Sq In Tons 3.5
Basell RP 549M MFI 11
Final Part Weight grams 9.06
Flow Length inches 5.4
Nominal Wall inches 0.050
Flow Length = 5.4”
Gate Location
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Strip Files & Pressure Windows1
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2.6”(0.050” wall)
2.7”(0.050” wall)
0.060”(0.023” wall)
Strip Files
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2.6”(0.050” wall)
2.7”(0.050” wall)
0.060”(0.023” wall)
Strip Files
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Process Set-Ups
Set V/P switch over to 0.1%
Manually constructA pack/hold curve that will fill and pack the part Set hydraulic response
to 0.01 seconds
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Process Set-Ups
Constant pressure of 3,500 psi Constant pressure of 4,500 psi Constant pressure of 5,500 psi
…and so on
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2.6”(0.050” wall)
2.7”(0.050” wall)
0.060”(0.023” wall)
Strip Files
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ThermafloBeaumont Technologies
(alternative option)
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ThermafloBeaumont Technologies
(alternative option)
Conventional = 1,000 psi/inch of flowAt 5.5” of flow = 5,500 psi (no hinge)
iMFLUX = 700 psi/inch of flowAt 5.5” of flow = 3,850 psi (no hinge)
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Strip Files
Conventional iMFLUX ThermaFloConventional
ThermaFloiMFLUX
Fill Pressure psi 6,100 4,400 5,500 3,900Fill Time sec 0.4 0.55 n/a n/a
Strip File Summary
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The importance of a simplified rangefinding method for the optimal lowconstant pressure is to be ableto iterate through multiple solutionsquickly rather than waiting on dozensof large models. This simplifiedprocess gets you very ‘close to thepin’ and saves significant time.
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Full Finite Element Analysis2
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Conventional Fill Pattern
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iMFLUX Fill Pattern
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Cavity Pressure Comparison
0.6seconds
1.0seconds
1.4seconds
conventional
iMFLUX
11,000 psi0 psi
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Cavity Pressure Comparison
1.8seconds
2.1seconds
2.5seconds
conventional
iMFLUX
11,000 psi0 psi
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Cavity Pressure Comparison
3.0seconds
3.5seconds
conventional
iMFLUX
11,000 psi0 psi
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Cavity Pressure Comparisons
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Cavity Pressure Comparison
More uniform and sustained pressure
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Cavity Pressure Comparisons
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Cavity Pressure Comparison
conventional iMFLUX
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Frozen Layer Fraction Comparison
1.0seconds
1.5seconds
2.0seconds
conventional
iMFLUX Less shear, freezing faster
100% frozen
0.000 psi
0% frozen
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Frozen Layer Fraction Comparison
2.5seconds
3.0seconds
3.5seconds
conventional
iMFLUX
100% frozen0% frozen
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Volumetric Shrink Comparisons
9,000psi
11,000psi
13,000psi
10,000psi
conventional
iMFLUX7,500
psi
Similar levels ofshrink variation with 3,000 psiless pressure
13%0%
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Residual Stress Comparisons
conventional iMFLUX
Stress just under skin layer (highest)
Polarized light(all layers)
Stress just under skin layer (highest)
Polarized light(all layers)
5,200 psi0 psi
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Molding Trial Results3
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Conventional Process Curves
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Conventional Process Curves
Constant screw velocity during fill
Peak melt pressure = 14,000 (nozzle transducer)
Cavity pressure varies during fill
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iMFLUX Process Curves
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iMFLUX Process Curves
Screw velocity changes during fill
Constant pressure = 9,000 (nozzle transducer)
Cavity pressure more uniform
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iMFLUX Process Curves Summary
Velocity auto adjusts to maintain constant pressure
Low, constant pressure throughout
More uniform cavity pressures
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Moldflow Log File Results
Fill/Pack Pressure ProfilesMelt Front Velocities Clamp Forces
Low constant pressure
Variable flow rate in mold 17T/cavity (iMFLUX)35T/cavity (conventional)
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Summary4
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Fill Pressure
32% Reduction13,900 to 9,500 psi
32%Reduction11,000 to 7,500 psi
Did not model nozzle/sprue
Clamp Force Cycle Time Residual Stress
18TReduction N/A
Reached Low Limit of Press
51%Reduction
35T to 17T
15% Reduction
11.85 to 10.05 seconds
13%Reduction
12.0 to 10.5 seconds
N/A48%Reduction
4,900 to 2,500 psi (in lid)
AC
TUA
LSI
MU
LATI
ON
AC
TUA
LSI
MU
LATI
ON
AC
TUA
LSI
MU
LATI
ON
AC
TUA
LSI
MU
LATI
ON
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Simulation ‘Wish For(s)’
AUTOPREDICTION
OF MINIMUMPRESSURE
TOFILL CAVITY
PRESSURECONTROL FILLING
SIMULATION
OPTIMIZESLOPE/RAMPAT START OF PRESSURE
CURVE
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