Moldex3D Fibers 2 & Micromechanics. Moldex3D John Lin Users Meeting Italia

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Moldex3D Fibers 2 & Micromechanics Moldex3D John Lin 2016 Users Meeting Italia 10

Contents > Introduction > Moldex3D Fiber Features and Benefits > Micromechanics Interface 2

Introduction 3

Why Fiber > Fiber Reinforced Plastics (FRP) has widely acted as an major material for lots of plastic parts for their superior mechanical properties 4

Raw Material Types > Material types are related to fiber length 5

Fiber Reinforced Plastics (FRP) > In fiber-reinforced plastic (FRP) production, there are three most important factors affecting the filling behavior, warpage, and product structural strength Fiber orientation Fiber length (Breakage Prediction during Screw processing) Fiber concentration (The concentration corresponds to the fiber orientation and melt viscosity) 6

Importance of Orientation - Fiber Orientation Distribution > Flow orientation distribution consists of core, shell and skin through the thickness of the molding Core region contains a more random in plane Shell layers are dominantly aligned in the flow direction Skip boundaries are due to a fiber-wall interaction shell layer shell layer skin boundary shell layer 0,90 0,80 0,70 core region core region A 11 0,60 0,50 0,40 0,30 0,20 0,10 skin boundary skin boundary Skin Shell Core Shell Skin shell layer skin boundary 0,00-0,92-0,77-0,62-0,46-0,31-0,15 0,00 0,15 0,31 0,46 0,62 0,77 0,92 z/h 7

Importance of Orientation - Young's Modulus and Fiber Direction > The modulus value for Unidirectional Fiber The force direction parallel to the fiber direction is maximum, and perpendicular to the fiber direction is minimum > The modulus value for Biaxial Woven Fiber The force direction are relatively insignificant http://www.tech.plym.ac.uk/sme/mats324/mats324a2%20e-g-nu.htm 8

Importance of Orientation - 3D Orientation > The fiber orientation shows a full 3D phenomena Traditional 2.5D method Limited to the thin wall and creeping assumption Only considers in-plane (layer-by-layer) orientation and can not predict out-of-plane phenomenon Fountain effect Tumbling of fibers 9

Importance of Fiber Length > The melt went through the screw melting and injecting process, high shear forces can easily snap the fibers > Apparent fiber length degradation, less than 1/5 the original length can be easily found in the finished part 10

Importance of Fiber Length - Strength and Stiffness > Long fiber can all reinforce the part in its strength and stiffness better than the short > Adding long fibers also get a better impact strength value 11

Importance of Fiber Concentration > In 1956, Maron and Pierce describe the phenomenon in Suspension Balance Model > Later in 1980, Kitano et al. conducted an experiment The higher fiber concentration will be the greater the viscosity and make the polymer melt difficult to flow forward > Moldex3D based on these research studies and experiments to verify the simulation accuracy (Ref: An empirical equation of the relative viscosity of polymer melts filled with various inorganic fillers, T. Kitano, T. Kataoka, and T. Shirota, 1980) 12

Features and Benefits 13

Benefits of Moldex3D Fiber > More reliable model Objective improvement to complete Moldex3D s iard- RPR orientation model Especially for enhancing the core region Not to set an additional inlet condition around gate > More accurate default Friendly suggestion of optimal default parameters for short/long fibers High Accuracy within experiment verification Material Parameter without largely fine-tuning parameter > More anisotropic warp Accurate fiber orientation to better anisotropic warp 14

Fiber Analysis in Flow > Orientation at weld line region If the joining angle is too large, the polymer will not penetrate past the weld line weakening the interfacial adhesion Fibers have trouble penetrating the weld line http://www.dc.engr.scu.edu/cmdoc/dg_doc/develop/trouble/weldmeld/f6000001.htm 15

Fiber Analysis in Warp > Capable of simulating the fiber orientation and the anisotropic warpage behaviour Anisotropic mechanical properties 16

Fiber: New Moldex3D R14.0 Fiber Kernel (con t) > Moldex3D R13.0 provides 70-80% accuracy on of fiber orientation prediction > Moldex3D R14.0 further enhances the core region with an accuracy increment of at least 20% Moldex3D R13.0 Fiber 1.0 (2013) Moldex3D R14.0 Fiber 2.0 (2015) 17

Fiber Analysis for Structural Simulation (1) - FEA Interface Workflow Flow analysis Orientation information + Material parameters Element properties Structural simulation software 18

Fiber Analysis for Structural Simulation (2) - Digimat Workflow 19

Moldex3D Fiber 2.0 > Provide the three major factors: fiber orientation, fiber length, and fiber concentration that directly affect the material properties of FRP products > Validate resultant anisotropic mechanical properties of fiberreinforced materials > Moldex3D FEA Interface outputs fiber orientation information and combines with DIGIMAT to provide material information to structural analysis software > Moldex3D users can benefit from getting a comprehensive fiber analysis in the injection molding process 20

Micromechanics Interface 21

Micromechanics Interface > More considerations for nonlinear multi-scale material modeling simulation with integration of Digimat and Converse before FEA software > Provide more efficient and accurate structural analysis of composite materials > Give users an opportunity to solve complex nonlinear multiscale finite element problems Micromechanics Interface FEA software Composite material analysis Nonlinear analysis 22

Supported Output Files Function Items Weld line Fiber orientation Flow-induced residual stress Temperature MuCell Description Weld line definitions are imported in Digimat- MAP in the form of node sets. This allow to export these sets to CAE codes, using proper element set definition, in order to assign them particular material properties. Export the fiber orientation data for further analysis to view characteristics of fiber. When the mold opens to extract the part, those residual stress induce part deformations. Digimat-MAP is there to map such data input and allow to account for it as inputs of mechanical simulations. Temperatures before this cooling step could then be exported from the injection simulation results in order to perform a warpage analysis using DIGIMAT, Digimat-MAP allowing to map those temperatures from the injection mesh onto the structural mesh. Export the cell size and cell density data for analysis to observe the mechanical properties of Mucell structure. Digimat-MF and Digimat-CAE can transform the element modulus. File name *.nwd *.o2d *.s2d *.t2d *.m2d Note: Converse supports *.o2d (Fiber orientation output) ONLY 23

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