© 2012 autodesk mold fatigue and lifecycle prediction xiaoshi jin principal research engineer,...
TRANSCRIPT
![Page 1: © 2012 Autodesk Mold Fatigue and Lifecycle Prediction Xiaoshi Jin Principal Research Engineer, Autodesk Inc](https://reader036.vdocument.in/reader036/viewer/2022062515/56649cea5503460f949b4d0a/html5/thumbnails/1.jpg)
© 2012 Autodesk
Mold Fatigue and Lifecycle Prediction
Xiaoshi JinPrincipal Research Engineer, Autodesk Inc.
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© 2012 Autodesk
Class Summary Conventional Mold designs in injection molding
Mostly based on expert experience without a careful stress analysisMold set lifecycle relies largely on a rough estimate
Newly developed rapid heating cycle molding (RHCM)Make mold designs more challengeHow to achieve both higher productivity with low cost and better quality?
Review of Three Major Causes of Mold DamageThermal Stress due to rapid heating and coolingMold deflection due to injection pressure imbalanceClamping force induced stress inside mold blocks
Integrated Tool Developed:Injection molding simulation: Heat Transfer, Flow with Core-shift, Clamp ForceMold STRESS and FATIGUE analyses
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© 2012 Autodesk
Learning Objectives
At the end of this class, you will be able to: Understand the nature of mold lifecycle: costs, quality and productivity Understand the components of integrated analysis tool Know how to set up the right mesh and boundary conditions Interpret the results from Mold Fatigue Analysis
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Why Predict Mold Lifecycle?
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Market requests
Requests from far-east Autodesk Moldflow Users’ Conferences back in 2010 NPE / ANTEC this year
RHCM in research and reality Papers from Taiwan and China
Mold failures in Ford Ford did its own “Mold Failure Prediction” with Moldflow and ABAQUS
Requests from other companies
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What we are in: CAE for Injection Molding
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What we face: Complexity of Mold Designs
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New Technologies drive the need
Rapid Temperature Cycling (RTC ®) / RHCM® / Variotherm ®
Heat Mold for Filling Eliminate visible weld-lines Increase flow length High (uniform) gloss finish Eliminate Gate Marks
(Cold slugs) Typically only the cavity side is heated
Heat by: Steam,Water, Electrical or Induction
Cool Mold during Packing Reduce cycle time Conformal Cooling
Conventional Molding
With RTC
ABS
Images courtesy of Gas Injection World Wide
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New Technologies drive the need
Additive Manufacturing (AM) of Molds Powder-based processes
Laser Engineered Net Shaping (LENS) Selective Laser Sintering/Melting (SLS/SLM) Direct Metal Laser Sintering (DMLS) Three Dimensional Printing (3DP)
Rapid Prototyping of Mold Low volume
Can we make it?
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What we face: Mold Damages, Fewer Shots
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Requirements for Mold Fatigue Prediction If a mold is damaged earlier than its expected lifecycle
Repair costs Unexpected downtime A backup mold set could be ordered
Mold maintenance service as a preventive care After certain cycles of molding which is based on failure statistics of different
molds in the past New Technology may increase quality, increase productivity
But may not lower costs due to shorter mold lifecycle
A mold design/making should be based a careful CAE analysis of the intended molding!
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What can we do with simulation tools?
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What available in Autodesk Simulation Autodesk Simulation Moldflow Insight
RHCM Heat Transfer Analysis (Cool FEM) Flow with Core-Shift Clamping Force Prediction
Autodesk Simulation Mechanical Linear Static Stress analysis (LSS) Transient thermal stress analysis Fatigue Wizard
Autodesk Simulation CFD Application to Conformal Cooling in RHCM
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What are the major causes of Mold Damage?
Heat Transfer induced thermal stress It should be calculated with Heat Transfer Analysis in Cool (FEM)
Mold Deflection induced stress Core-shift should be extended to Mold Blocks with LSS
Clamping induced stress Use the prediction of clamping force with optional inputs
Injection molding has a cyclic nature
Three cycles overlap together• Mold Opening and Closing• Heating up and Cooling down• Injection pressure increases and decays
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Material properties for fatigue: Yield Strength, UTS
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Material properties for fatigue: S-N and E-N data
Stress-life log10 curve Strain-life log10 curve
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Nature of Fatigue Data
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Nature of Fatigue: crack starts from surface
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Mold Fatigue Prediction Models
No mean correction Stress-life methods
Gerber Correction Goodman Correction Walker Correction
Strain-life methods Morrow Correction Smith-Watson-Topper Correction Walker Correction
Miner’s rule Haigh Diagram
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Fatigue Wizard is a Generic Tool…, it can do
Multi-load Analysis Static loads with user specified time history, all load cases need to be in the
same time span
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Fatigue Wizard is a Generic Tool…, it can do
Transient Analysis Load cases over a time history
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Fatigue Wizard is a Generic Tool…, it can do
Spectrum Analysis Load cases over a time history with specified load factors and repeated cycles
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Mold Fatigue Analysis is a Transient Analysis Three sets of stress load categories are added up
Thermal Stress + Mold Deflection Stress + Clamping Stress at each point Over the same time history The data “input” are built automatically
Mold Fatigue Analysis needs a lot of data transfer
Cool (FEM) Flow (Mold Deflection)
Fatigue
ASMEoverTime
Temperature Pressure
Displacement
Stresses
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Understand the nature of fatigue prediction
Accuracy of stress prediction plays a key role A small percent of error in stress prediction can cause a big error in fatigue life
A pre-existed defect in a mold metal is hard to be modeled in a mesh Stress prediction on surface
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How to setup Mold Fatigue analysis?
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Settings in Wizard
Include thermal stress in Cool (FEM) settings
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Settings in Wizard
Mold Fatigue Settings for all three load categories
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Mold Block Fatigue options
Mold Fatigue Options are based on mold pieces
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Fatigue properties
Fatigue properties are associated with mold piece
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Additional mechanical / strength properties
Additional mechanical / strength properties are needed, Compression may not be the same as tension
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Mesh requirements: Mold Deflection vs. Stress
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Mesh requirements
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Mesh requirements (continue)
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Stress concentration around a hole
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False stress concentration due to poor mesh
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Better mesh around the holes
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Contact Conditions
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Boundary Conditions
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Boundary Conditions: All fixed could be over-constrained
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How to interpret Mold Fatigue results?
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Mold Fatigue Analysis Results: Stress and Life
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If no damage is found…..
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Rapid Heating / Cooling induced thermal stress
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Mold deflection induced stress
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Clamping induced stress
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Mold deflection induced stress
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Clamping induced stress
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What if the mold metal has a lower S-N curve?
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What if a higher clamping force applied?
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Number of Cycles (shots) in log10 scale
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Approximated Range of Cycles, in log10 scale
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Discussions
Validation cases needed Mold failure cases, where and when the failure happened CAD model of mold and part Process conditions Clamping setup in the injection molding machine
Any suggestions are welcome
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Autodesk, AutoCAD* [*if/when mentioned in the pertinent material, followed by an alphabetical list of all other trademarks mentioned in the material] are registered trademarks or trademarks of Autodesk, Inc., and/or its subsidiaries and/or affiliates in the USA and/or other countries. All other brand names, product names, or trademarks belong to their respective holders. Autodesk reserves the right to alter product and services offerings, and specifications and pricing at any time without notice, and is not responsible for typographical or graphical errors that may appear in this document. © 2012 Autodesk, Inc. All rights reserved.