Members of the EFAS manufacturing team and their industry partners and interested in using MALAMUTE simulations to inform experiment design. A dedicated tutorial, for an audience of non-modelers, is necessary to enable this group to complete these parametric simulation studies.
Design
Initial conversations with the EFAS manufacturing team have identified two demonstration cases for this tutorial:
variations in the thickness of the mold (die) wall
variations in the conduction properties across the punch-to-part interfaces
Template input files for the DCS-5 and DCS-800 instrument at INL will be used in this tutorial.
The tutorial will involve:
Steps to run the original DCS-5 template input file, including a high-level overview of the input file components
Steps to analyze the simulation outputs using Paraview
Steps to modify the mold wall thickness in the input file and run those simulations
Steps to analyze and compare the different wall thickness simulation outputs
Steps to complete the same analysis with the DCS-800 (Steps 1-4)
Steps to complete the parametric study for variations in conductance properties (Steps 3-5)
Impact
Increase the MALAMUTE user-base
Facilitate continued cooperative development between the manufacturing and mod-sim teams working on EFAS topics
Establish a foundation for prototyping a design of experiments simulation capability with future coupling with AMMONOID
Reason
Members of the EFAS manufacturing team and their industry partners and interested in using MALAMUTE simulations to inform experiment design. A dedicated tutorial, for an audience of non-modelers, is necessary to enable this group to complete these parametric simulation studies.
Design
Initial conversations with the EFAS manufacturing team have identified two demonstration cases for this tutorial:
The tutorial will involve:
Impact