Maxwell/Kelvin/Burgers Model: Parallel-Plate Viscometer
Note
To view this project in FLAC3D, use the menu command . The project’s main data files are shown at the end of this example.
This example is to verify the classical Maxwell model and Burgers model. Suppose that a material with viscosity \(\eta\) is steadily squeezed between two parallel plates that are moving at a constant velocity \(V_0\). The two plates have length 2 \(l\) and are a distance 2 \(h\) apart. The material is prevented from slipping at the plates. The approximate analytical solution, given by Jaeger (1969), is
The problem is illustrated in Figure 1.
To solve the problem with FLAC3D, advantage can be taken of the symmetry about the \(x\)- and \(y\)-axes. Only the top-right quadrant needs to be modeled. For compatibility with the approximations of the analytical solution, artificial forces have to be applied at the “free” right-hand edge, and small-strain logic is used.
The material properties are
shear modulus |
5 × 108 Pa |
bulk modulus |
1.5 × 109 Pa |
viscosity |
1 × 1010 kg/ms |
The Maxwell model component is also tested in the
Burgers-Mohr model (zone cmodel
burgers-mohr) for the viscometer test.
The values of cohesion and tensile strength are set high to prevent plastic failure in the viscoplastic
model so it is equivalent to the classical Burgers model. The additional commands for this model are contained in main
data files. Upon execution of the data file with each model
activated, results identical to those produced with the classical viscoelastic model are obtained.
The FLAC3D grid is shown in Figure 2.
The analytical solution is calculated with FISH function analytical, using the extended arrays to store the calculated values. A good agreement was obtained between FLAC3D and the closed-form solution. The contours of \(x\)-velocity are plotted in Figure 3. The corresponding analytical solution is shown in Figure 4. The \(\sigma_{xx}\)-contours are shown in Figure 5, and the analytical values in Figure 6.
Data File
;------------------------------------------------------------
; Parallel plate viscometer -- classical model
;-------------------------------------------------------------------
model new
model large-strain off
fish automatic-create off
model title "PARALLEL-PLATE VISCOMETER (CLASSICAL VISCOSITY)"
model configure creep
;
program call 'AnalyticalSolution'
;
zone create brick size 10 5 2
zone face skin
zone cmodel maxwell
zone property shear 0.5e9 bulk 1.5e9 viscosity 1e10
;
zone face apply velocity-x 0.0 range group 'West' or 'North'
zone face apply velocity-y 0.0 range group 'North' or 'South'
zone face apply velocity-z 0.0
zone face apply velocity-y -1e-4 range group 'North'
; forces at r.h.s boundary
zone gridpoint fix force-applied-x 2.25e5 ...
range position-x 10 position-y 0 position-z 0
zone gridpoint fix force-applied-x 4.32e5 ...
range position-x 10 position-y 1 position-z 0
zone gridpoint fix force-applied-x 4.32e5 ...
range position-x 10 position-y 1 position-z 0
zone gridpoint fix force-applied-x 3.78e5 ...
range position-x 10 position-y 2 position-z 0
zone gridpoint fix force-applied-x 2.88e5 ...
range position-x 10 position-y 3 position-z 0
zone gridpoint fix force-applied-x 1.62e5 ...
range position-x 10 position-y 4 position-z 0
zone gridpoint fix force-applied-x 4.50e5 ...
range position-x 10 position-y 0 position-z 1
zone gridpoint fix force-applied-x 8.64e5 ...
range position-x 10 position-y 1 position-z 1
zone gridpoint fix force-applied-x 7.56e5 ...
range position-x 10 position-y 2 position-z 1
zone gridpoint fix force-applied-x 5.76e5 ...
range position-x 10 position-y 3 position-z 1
zone gridpoint fix force-applied-x 3.24e5 ...
range position-x 10 position-y 4 position-z 1
zone gridpoint fix force-applied-x 2.25e5 ...
range position-x 10 position-y 0 position-z 2
zone gridpoint fix force-applied-x 4.32e5 ...
range position-x 10 position-y 1 position-z 2
zone gridpoint fix force-applied-x 3.78e5 ...
range position-x 10 position-y 2 position-z 2
zone gridpoint fix force-applied-x 2.88e5 ...
range position-x 10 position-y 3 position-z 2
zone gridpoint fix force-applied-x 1.62e5 ...
range position-x 10 position-y 4 position-z 2
zone gridpoint fix force-applied-y -1.2e5 ...
range position-x 10 position-y 1 position-z 0
zone gridpoint fix force-applied-y -1.2e5 ...
range position-x 10 position-y 1 position-z 0
zone gridpoint fix force-applied-y -2.4e5 ...
range position-x 10 position-y 2 position-z 0
zone gridpoint fix force-applied-y -3.6e5 ...
range position-x 10 position-y 3 position-z 0
zone gridpoint fix force-applied-y -4.8e5 ...
range position-x 10 position-y 4 position-z 0
zone gridpoint fix force-applied-y -2.4e5 ...
range position-x 10 position-y 1 position-z 1
zone gridpoint fix force-applied-y -4.8e5 ...
range position-x 10 position-y 2 position-z 1
zone gridpoint fix force-applied-y -7.2e5 ...
range position-x 10 position-y 3 position-z 1
zone gridpoint fix force-applied-y -9.6e5 ...
range position-x 10 position-y 4 position-z 1
zone gridpoint fix force-applied-y -1.2e5 ...
range position-x 10 position-y 1 position-z 2
zone gridpoint fix force-applied-y -2.4e5 ...
range position-x 10 position-y 2 position-z 2
zone gridpoint fix force-applied-y -3.6e5 ...
range position-x 10 position-y 3 position-z 2
zone gridpoint fix force-applied-y -4.8e5 ...
range position-x 10 position-y 4 position-z 2
;
model creep active on
model creep timestep fix 1
model save 'ini'
;
model step 900
[analytical(-1e-4,5,10,1e10)]
model save 'viscplate-maxwell'
;
model restore 'ini'
zone cmodel burgers-mohr
zone property shear-maxwell 0.5e9 bulk 1.5e9 viscosity-maxwell 1e10 ...
cohesion 1e10 tension 1e10 ; model cvisc
model step 900
[analytical(-1e-4,5,10,1e10)]
model save 'viscplate-burgers-mohr'
;
program return
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