Moldex3D Material Lab Capabilities
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CONFIDENTIAL R12.0 Material Characterization for CAE Simulation Technical Research Division Rheology Laboratory
description
flow simulation lab
Transcript of Moldex3D Material Lab Capabilities
CONFIDENTIAL
R12.0
Material Characterization for
CAE Simulation
Technical Research Division
Rheology Laboratory
2
> General
– CAE and physical properties measurement … P. 3
– Laboratory equipments … P. 4
– Sample preparation … P. 5
> Measurement of thermoplastic
– Viscosity … P. 7
– Density (P-v-T) … P. 9
– Crystallization … P. 11
– Thermal properties (Cp, k) … P. 12
– Mechanical properties (E, ν) … P. 14
> Measurement of thermoset
– Reactivity (cross-linking, curing kinetics) … P. 16
– Chemorheology of reactive material … P. 17
Content
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Constitutive equation τ = f (η, deformation, …)
Conversion rate, R Heat capacity, Cp
Thermal conductivity, k
Density, ρ (P-v-T);
v P, T = f (α)
Physical properties considered in CAE
:u
TkT
t
TCp
gpDt
D τ
u
0 RjX
0
u
t
Thermodynamic
state
END FLOW PROPERTY to POST DEFORMATION
Thermoset: E(t, T, C)
Thermoplastic: E(t, T); Poisson ratio,ν
Mass
balance
Energy
balance
Momentum
balance
Cross-
linking
kinetics
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Laboratory equipments
MCR 502 Rotation and
oscillation
test for
viscoelastic
property
CR-6000 Viscosity
Rheograph RG25 k, viscosity,
counter pressure
equipped
DSC 8500
Heating rate: 750 ℃ /min
Cooling rate: 600 ℃ /min
Min temp -180 ℃ (LN2)
pvT100 P-v-T
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Sample preparation - Storage and treatment
Freezer
Vacuum oven
Halogen moisture analyzer
Mettler Toledo, HG63
Moisture level 0.01%
Analytical balance
Mettler Toledo, AE100+
Sensitivity 0.1 mg
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Measurement of thermoplastics
7
Viscosity measurement
Rotational rheometer Drag flow
Capillary rheometer Pressure driven flow
Non-Newtonian
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Viscosity data
Curve fitting:
turn scattered data points into usable
material function for CAE analysis
9
Density (P-v-T)
10
5 °C/min 200 °C/min
P-v-T of Semicrystalline Polymer
> Effect on different cooling rate
11
Crystallization coupled w/ P-v-T
12
Thermal properties - Thermal Conductivity (k)
13
Thermal properties - Heat capacity (Cp)
Differential Scanning Calorimeter
Perkin-Elmer, DSC 8500
Heating rate: 750 ℃ /min
Cooling rate: 600 ℃ /min
Min temp -180 ℃ (LN2)
14
Mechanical properties (E, ν)
> Young’s modulus will be tested at different temperature
and different level of cross-linking.
15
Measurement of thermoset
16
Reactivity (cross-linking, curing kinetics)
Conversion vs. Heating rate
17
Chemorheology of reactive material
Shear rate = 1/s
> Viscosity-Conversion Relationship
Thank you for your attention!
