modeling of fiber orientation in fiber filled thermoplastics 29-03-2010
DESCRIPTION
Modeling of fiber orientation in fiber filled thermoplastics 29-03-2010. Prof.dr.ir. D.J. Rixen Prof.dr.ir. L.J. Sluys Dr.ir. M.J.B.M. Pourquie. Adriaan Sillem TU Delft, numerical analysis / solid and fluid mechanics / construction mechanics DSM, materials science center. - PowerPoint PPT PresentationTRANSCRIPT
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Modeling of fiber orientation in fiber filled thermoplastics
29-03-2010
Adriaan SillemTU Delft, numerical analysis / solid and fluid mechanics / construction mechanicsDSM, materials science center
Prof.dr.ir. D.J. RixenProf.dr.ir. L.J. SluysDr.ir. M.J.B.M. Pourquie
Prof.dr. J.J.M. SlotDr.ir. H. van Melick
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•Introduction.•Application.•Models.•Test cases.•Conclusions and recommendations
Layout
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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Introduction
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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•Master student mechanical engineering.•Final project of mechanical engineering study.•Carried out at DSM, a Dutch multinational Life Sciences and Materials Sciences company.
Project
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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DSM is interested in simulating the production process injection molding.
Interest
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Implementation of a model to gain insight in the fiber orientation development during injection molding.
Objective
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•Reproduction of literature material.•Implementation of models.•Interpretation of output.•Comparison of quality of approximations.•Instruction of implementation.•Integration of all of the former in a report.
Contribution
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Application
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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Focus of the project is on thermoplastic products.
In our daily lives, we encounter thermoplastic products.
Thermoplastic products
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Examples
Thermoplastic products
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Used materials in granules or pellets form.
Material
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Injection molding
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Used materials in granules or pellets form.
Material
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Add discontinuous fibers to improve the quality of the final product. Glass or carbon fibers, for instance.
Influences:•viscosity,•stiffness,•thermal conductivity and•electrical conductivity.
DSM wants to controlthese properties.
Material
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•Typical volume fractions are 8-30%.•Typical weight fractions 15-60%.•Typical average final lengths 200-300 [μm].•Typical diameter 10 [μm].
Average human hair is100 [μm].
Material
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Configuration of the fibers.
Configuration of the fibers
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How is the configuration of the fibers controlled?
We want to control the production process.
Configuration of the fibers
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Configuration of the fibers can be controlled by•processing settings on the injection molding machine and•mold geometry (expensive!).
Simulations are preferred.
Control
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DSM already uses the commercial software•Moldflow and•Moldex3Dto simulate injection molding processes.
Problems encountered by DSM:•results warpage (kromtrekking) analyses not good,•results fiber orientation analyses not good,•‘company secrecy’ response concerning the code,•models not up to date.
Software
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DSM wants implementations of the latest fiber orientation models.
Project
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How can the configuration of the fibers be described?•Location of the fibers.•Orientation of the fibers.
It is reasonable to assume that the concentration of the fibers in the final product is uniform by approximation.
The orientation of the fibers influences the material properties the most.
We will focus on the modeling of the orientation.
Fiber orientation
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Models
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What are the physics behind the fiber orientation? What are the characteristics?•Inertia forces are negligible <-> low Reynolds number.•Viscous forces <-> lift and drag.•Stiffness of the fibers <-> internal stresses.•Fiber-fiber interaction <-> fibers ‘hit’ each other.•Fibers influence surrounding flow field <-> coupling of orientation and velocity.
Order of increasing complexity of the models.
Physics behind fiber orientation
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Models are constructed for incompressible homogeneous flows. Such flows are characterized by velocities whereof the change in space is constant.
The velocity can be described as
Incompressibility demands that
Incompressible homogeneous flow fields
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Examples are•the simple shear flow field
•the uniaxial elongational flow field
Incompressible homogeneous flow fields
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Layout models
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Jeffery’s equation
Ellipsoidal particle immersed in a viscosity dominated fluid
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Jeffery’s equation
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Jeffery’s equation
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Balance between viscous stresses from the flow field and internal stresses of the fiber leads to
The re is the aspect ratio of the ellipsoidal particle. The ξ is a function of this aspect ratio.
Jeffery’s equation
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Layout models
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Model fiber-fiber interaction deterministically or stochastically?
Folgar-Tucker model
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Outcome of a throw of a dice.•Hard to say in a deterministic sense.•Easy to say in a stochastic (probabilistic) sense.
Same holds for fiber-fiber interaction.
Folgar-Tucker model
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Folgar-Tucker model
Three equations, four unknowns, not solvable.
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Folgar-Tucker model
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Folgar-Tucker model
Four equations, four unknowns, so solvable.
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Folgar-Tucker model
•Viscous and internal stresses of a convective nature.•Fiber-fiber interaction of a diffusive nature.
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Jeffery’s equation
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Partial information
Solving the probability density is very demanding in the computational sense.
Is there a computationally less expensive approach?
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Layout models
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Partial information
--> less information
The only unknowns are the orientation tensors
Sum is infinite! Maybe a set of lower order terms already give enough information on the fiber orientation.
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Partial information
Let us first consider the symmetric second order tensor.
p1p1 sin θ p2p2 sin θp3p3 sin θ
p1p2 sin θ p1p3 sin θ p2p3 sin θ
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Partial information
The orientation tensor already gives sufficient information on the fiber orientation.
But can it be solved more efficiently?
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Folgar-Tucker tensor form
The rate equation for A.
Not a function of orientation p. Only of time t.
We have realized a reduction of the #DOF from three to one. The tensor form can be solved more efficiently.
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Folgar-Tucker tensor form
The rate equation for A.
Comparison with experimental results show that the transient time is too short.
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Layout models
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Correction
We need to ‘correct’ the rate equation.
How should we do this?
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Correction
A straightforward way would be
Model is not objective.
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Wang-O’Gara-Tucker
In 2008, Wang, O’Gara and Tucker found a way to prolong the transient time in an objective way.
Because the orientation tensor is symmetric, it has a spectral decomposition.
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Wang-O’Gara-Tucker
Is objective!
But the equation is not solvable.
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Closure approximation
Fourth order tensor is unknown.
With relations with the second order orientation tensor and solving ψ for some easy cases, we can construct
and solve the rate equation.
F is called a closure approximation as it close the problem in an approximate way.
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Closure approximation
The idea is fitting.
The F can be constructed in many ways!
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Closure approximation
We have to investigate the quality of the approximation.
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Layout models
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Solution strategy
We solve the equations with•finite volume method in space and•Euler forward in timefor the probability density function, and•Euler forward in time•several closure approximationsfor the orientation tensor.
We have to compare the quality of the approximations.
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Test case
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Simple shear flow field is described by
v = velocity in [m/s]x = space in [m]G = shear rate in [1/s]
Simple shear
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Simple shear flow field
Simple shear
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Simple shear
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Partial information
Let us consider the symmetric second order tensor.
p1p1 sin θ p2p2 sin θp3p3 sin θ
p1p2 sin θ p1p3 sin θ p2p3 sin θ
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Simple shear
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Simple shear
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Balance between contributions can be varied by changing•the initial condition and•the time dependence of the strain and shear rates.
Gives an indication of dependence on history.
Simple shear
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ICs taken with orientation already towards the x1 direction
Simple shear
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Simple shear
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Simple shear
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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Phenomenological parameter kappa to prolong the transient time.
Simple shear
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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Comparison of the solutions of the kinetic theory and the tensor approximations.
Simple shear
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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Taking another parameter set results in a decay of the quality of the approximations.
Simple shear
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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Conclusions and recommendations
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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Conclusions•The numerical approach for the probability density and orientation tensor are sufficiently fast.•The convection and diffusion of the probability density strongly depend on the initial condition and the time dependence of the strain and shear rates.•The slow down will help fitting to experimental results.•The quality of the closure approximations varies with the parameters and the flow fields.
Recommendations•Further study of the literature.•Closure approximations should be investigated.
Conclusions and recommendations
INTRODUCTION | APPLICATION | MODELS | TEST CASES | CONCLUSIONS AND RECOMMENDATIONS
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Questions?