© 2012 autodesk moldflow insight sensitivity study sm2137-p laura stuart, te connectivity cae...
TRANSCRIPT
![Page 1: © 2012 Autodesk Moldflow Insight Sensitivity Study SM2137-P Laura Stuart, TE Connectivity CAE Engineering Analyst - Harrisburg, PA, USA Paul Brincat, Autodesk](https://reader035.vdocuments.mx/reader035/viewer/2022081501/56649cbb5503460f9498315e/html5/thumbnails/1.jpg)
© 2012 Autodesk
Moldflow Insight Sensitivity StudySM2137-P
Laura Stuart, TE ConnectivityCAE Engineering Analyst - Harrisburg, PA, USA
Paul Brincat, AutodeskSenior Research Engineer – Melbourne, Australia
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Class Summary/Highlights
Theoretical - Laura: Manual* DOE creation methods using tcodes, tcodesets, scripts Moldflow command shell use Study creation & modification Result extraction
Experimental - Paul: Comparison of theoretical vs. experimental
*This study included some functionality not currently available in the Moldflow Insight DOE module at the time the study was conducted.
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Learning Objectives
At the end of this class, you will be able to: Recreate a sensitivity study tailored to your product line and commonly
used materials Reduce design optimization time Create modified studies and extract results from studies without using
the Autodesk Moldflow Insight user interface Enhance an experimental sensitivity study result Observe a comparison of predicted parameter sensitivity against
measured values
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Theoretical Sensitivity Study
Laura Stuart
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Theoretical Study – Motivation vs. Capability
TE Connectivity Internal Debates: Fill time vs. flow rate Pressure profile increments Mold & melt temp More
Moldflow Insight DOE Capabilities
No direct mapping of our desirables
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Theoretical Study – Motivation vs. Capability
TE Connectivity Internal Debates: Filled & fill time Temp at flow front Time to ejection temp Pressure at end of fill Volumetric shrinkage Deflection
Moldflow Insight DOE Capabilities
No direct mapping of our desirables
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Theoretical - Overview
Study/Mesh Creation
DOE = LV
Variables (V) – e.g. process conditions Levels (L) – e.g. high/low
Add: Materials (M) Geometries (G)
Resultant # of analyses = M*G*LV
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Levels (L) = 2 “High” vs. “Low”
Variables (V) = 4 Melt & Mold temp, Fill & Pack Control
Materials (M) = 4 2 PBT & 2 Nylon with varying glass content
Geometries (G) = 2 varying geometries
Resultant # of analyses = M*G*LV = 128
Theoretical - Overview
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ACCURACY Will you accurately create 128 Moldflow studies manually?
EFFICIENCYDo you have the time to create, launch, & review 128 studies?Why manually create when you can automate?
SOLUTIONScripting
Theoretical - Benefits
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Python (programming language user choice) Batch Files Moldflow Commands
Studymod.exe Studyrlt.exe Runstudy.exe
Theoretical – Scripting Used
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Theoretical – Scripting Used
To access the Moldflow commands (studymod, studyrlt, runstudy):1. Select Start > All Programs > Autodesk Moldflow Insight 20122. Open either "Autodesk Moldflow 2012 Synergy Command Shell" or
"Autodesk Moldflow 2012 Insight Command Shell"3. Enter Moldflow command (studymod, studyrlt, runstudy) at the
command prompt
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5 Basic Steps (details for each to follow)1. Create the CSV file defining DOE2. Create the Moldflow model3. Create the Sensitivity Study script4. Launch the batch file5. Extract the results
Theoretical - Solution
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Create CSV file defining DOE with properties to be changed
– i.e. DOE table with one row per trial
Examples:
Theoretical – Solution Step 1
Melt temp Mold temp Cool time
Injection profile Pack profile And more!
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Create Moldflow model
Define: Injection locations Mesh Material Anything not in DOE variables
Theoretical – Solution Step 2
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Create Sensitivity Study script to perform the following:1. Define template xml file w/variables for replaceable elements
-e.g. properties, tset, tcode2. Open CSV file3. For each trial/row:
a) Parse rows into valuesb) Replace values in xml templatec) Write to xml filed) Call studymod.exe to generate new study w/xml file replacements
Theoretical - Solution Step 3
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Theoretical – XML File Example Code
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Sensitivity Study script also needs to perform the following:4. Create windows batch file with the following for each new study:
a) Runstudy.exe commandb) Create a new directory named by <studyname>c) Copy into that directory the study file and all results
Theoretical - Solution Step 3 (continued)
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Run batch file
Theoretical - Solution Step 4
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Obtain results
1. Create new CSV file for results with column headers & row names2. For each subdirectory (i.e. study):
a) Open the out file corresponding with Flow result, then: If line starts with message id (tcode):
304007, record “Filled”304008, record “Shorted” + value filled
Theoretical - Solution Step 5
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Obtain results (continued)2. For each subdirectory (i.e. study): b) For each desired result value:
i. Build studyrlt.exe command line with appropriate result tcodeii. Run studyrlt.exeiii. Read result from the .val file and record value
c) Write all results to a row of the CSV file
Theoretical - Solution Step 5 (continued)
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Theoretical – Studyrlt Format
Note: See the Moldflow help “tcodeset reference” & “tcode reference” for tcodesets & tcodes
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Theoretical – Studyrlt Format
Note: See the Moldflow help “tcodeset reference” & “tcode reference” for tcodesets & tcodes
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Theoretical –Extraction Example Code & Cmds
Note: See the Moldflow help “tcodeset reference” & “tcode reference” for tcodesets & tcodes
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Theoretical – Result of Extraction Code
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Theoretical – Result of Extraction Code
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Experimental Sensitivity Study
Paul Brincat, AutodeskSenior Research Engineer – Melbourne, Australia
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Section Summary
In this section of the class Autodesk® Simulation Moldflow® Insight predictions for a parameter sensitivity study will be shown against a test case to firstly highlight aspects to consider and also demonstrate Insight’s alignment with the measured responses.
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Introduction
Simulation Validation Group is responsible for quantifying the accuracy of: Autodesk Simulation Moldflow Autodesk Simulation CFD Autodesk Simulation Mechanical
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Experimental Sensitivity Study
Corner geometry
Polypropylene (Basell Moplen EP301K)
The parameters varied: Melt temperature Mold temperature (uniformly) Pack pressure
3.2”
1.6”
2”0.16”
0.08”
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Experimental Sensitivity Study (continued)
The outputs measured: End of injection pressure Part linear shrinkage Corner angle
Nozzle Pressure
Shrinkage
Angle
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Experimental Equipment
Data acquisition device to capture displacement, pressure and temperature values
Part dimensions measured optically
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Steps to Enhance an Experimental Sensitivity Study Result
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Experimental Uncertainties
To establish an accurate input parameter to output measurement relationship, it is important to: minimize experimental variation by ensuring stable conditions quantify the experimental uncertainty through the use of repeats
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Experimental Uncertainties (continued)
Measurement variations can then be observed on parameter influences, for example Warpage Angle
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Experimental Uncertainties (continued)
Being aware of local measurement variations, such as some corner curvature
Key is to ensure that trend is captured
Scan of corner part
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Simulation Uncertainties
Like Experimental variation, the Simulation uncertainty should be minimized as well through an: Accurate representation of the geometry Appropriate selection of simulation parameters, such as mesh and parameter
settings
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Simulation Uncertainties (continued)
Selection of mesh edge length based on mesh sensitivity test
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Simulation Uncertainties (continued)
Variations such as Material model parameters can impact the sensitivity results
If available CRIMS Shrinkage model can enhance linear shrinkage prediction
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Sensitivity Study Results
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Sensitivity Study Results
It would be ideal to get close to measured values but key aspects of a sensitivity study are to observe: the size of variation parameter trends
All simulations are done using: Autodesk Simulation Moldflow Insight 2013 Mid-plane mesh Cool + Fill + Pack + Warp sequence
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End of Injection Pressure
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End of Injection Pressure (continued)
Unexpected Pack Pressure influence
Shows that machine dynamics can have an impact on measured responses
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Part Linear Shrinkage
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Part Warpage
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Summary
Important to consider uncertainties both in the experiment and simulation as they can provide a clearer picture of the confidence in your results
Simulation sensitivity studies provide much more than single simulation results, namely the expected: Size of variation Parameter influences
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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.