PZFlex processing suspended-error detected Answered
I tried to replicate the tutorial for simulating a transducer step by step; however, I got an error as above "PZFlex processing suspended-error detected"
I imported the file from Onscale website and basically did the process step by step. Would you know what could be the problem?
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. Begin PZFlex processing at Tue Aug 23 12:32:22 2022 .
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. Platform: WINEM64T Precision: single .
. Release: FLEX_v1.7.7 .
. Model verification reduced edition .
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****MKL: tbb threading
. Copyright 1984-2019 by OnScale. All rights reserved. .
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. Windows executable: C:\Program Files\OnScale\Flex\Programs\flexp_s.exe
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. Username: sbe Machine: tl747 .
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. Defaults file: C:\Users\sbe\Flex.defaultsx .
****Using Flex.key licensing
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Memory allocation:
Numeric data- 100 million words ( 400 Mbyte)
Character data- 100 thousand words ( 2 Mbyte)
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input- c mem 800 200 /* Allocate 800 megawords of memory - 3 GigaBytes (Not necesarry for Windows Operating Systems)
input- c NOTE: MEM Command must be first command in file, if used. (Line 1)
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input- rest no
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input- c *************************************************************************************************************
input- c
input- c Generated Flex Input File
input- c
input- c *************************************************************************************************************
input- c
input- c DESIGNER :OnScale - Designer Generated
input- c MODEL DESCRIPTION :
input- c DATE CREATED :23 Aug 2022
input- c VERSION :1.0
input- c *************************************************************************************************************
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input- mp
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input- omp * * /* Number of CPUs to be used in the execution.
Number of CPU sockets= 1
Number of cores per socket= 8
Number of licensed Openmp threads= 16
Maximum number of processors available for job= 1
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input- end
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input- titl OnScale_3D_Transducer_v2
OnScale_
-------- ------------------------------------------------------------
Job id Job title
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input- c *************************************************************************************************************
input- c
input- c Define User Variables
input- c
input- c *************************************************************************************************************
input- c
input- c These variables have been set by the user through the interface.
input- c
input- c *************************************************************************************************************
current definition of coordFactor ( real ) = 1.000000
current definition of timeFactor ( real ) = 1.000000
current definition of dMassFactor ( real ) = 1.000000
text symbol geom_filename =Transducer.STEP
current definition of geom_units_scale ( real ) = 0.1000000E-02
current definition of geom_scaleFactor ( real ) = 0.1000000E-02
current definition of freqint ( real ) = 500000.0
input- c *************************************************************************************************************
input- c
input- c Define Meshing
input- c
input- c *************************************************************************************************************
input- c
input- c Set the variable for the approximate element size for the model. Must be
input- c sufficient to represent the wavelengths of interest. Recommended that at least
input- c 15 elements per wavelength are used.
input- c
input- c *************************************************************************************************************
current definition of freqdamp ( real ) = 500000.0
current definition of wavevel ( real ) = 1496.000
current definition of wavelgth ( real ) = 0.2992000E-02
current definition of nmesh ( integer ) = 5
current definition of box ( real ) = 0.5984000E-03
input- c *************************************************************************************************************
input- c
input- c CAD Geometry Allocation
input- c
input- c *************************************************************************************************************
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input- cad
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input- defn cad_1
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input- file 'Transducer.STEP'
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input- scal $geom_scaleFactor
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input- mesh struct *
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input- dout * * 0 0 0
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input- end
CAD_KERNEL: Reading file --> Transducer.STEP
CAD_KERNEL: Start reading polyhedron mesh: ./Transducer.polyMes
CAD_KERNEL: Finished reading meshes from file
CAD_KERNEL: Geometry Volume: 27025.327993
CAD_KERNEL: Geometry Surface Area: 15414.092175
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input- c *************************************************************************************************************
input- c
input- c Geometry Locations (XYZ)
input- c
input- c *************************************************************************************************************
input- c Scale Parameters
current definition of xmin ( real ) = -0.3500000E-01
current definition of xmax ( real ) = 0.000000
current definition of ymin ( real ) = -0.1000000E-01
current definition of ymax ( real ) = 0.7000000E-01
current definition of zmin ( real ) = -0.2000000E-01
current definition of zmax ( real ) = 0.000000
input- c Determine lengths of the model
current definition of xlen ( real ) = 0.3500000E-01
current definition of ylen ( real ) = 0.8000000E-01
current definition of zlen ( real ) = 0.2000000E-01
input- c ***************************************************
input- c
input- c Keypoints in the X-Direction
input- c
input- c ***************************************************
current definition of idx ( integer ) = 2
input- c ***************************************************
input- c
input- c Keypoints in the Y-Direction
input- c
input- c ***************************************************
current definition of y1 ( real ) = -0.1000000E-01
current definition of y2 ( real ) = 0.1900000E-01
current definition of y3 ( real ) = 0.2300000E-01
current definition of y4 ( real ) = 0.7000000E-01
current definition of jdx ( integer ) = 4
input- c ***************************************************
input- c
input- c Keypoints in the Z-Direction
input- c
input- c ***************************************************
current definition of kdx ( integer ) = 2
input- c *************************************************************************************************************
input- c
input- c Indices Locations (IJK)
input- c
input- c *************************************************************************************************************
input- c Grid in I direction, using approximately element size of 'box' and at least 1 element
current definition of indgrd ( integer ) = 59
input- c Grid in J direction, using approximately element size of 'box' and at least 1 element
current definition of jndgrd ( integer ) = 135
input- c Grid in K direction, using approximately element size of 'box' and at least 1 element
current definition of kndgrd ( integer ) = 34
input- c *************************************************************************************************************
input- c
input- c GCON Grid & Geometry Allocation
input- c
input- c *************************************************************************************************************
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input- grid $i$idx $j$jdx $k$kdx
grid geometry is 3-dimensional
i j k total
----- ----- ----- -----
grid nodes - 59 x 135 x 34 = 270810
grid elements- 58 x 134 x 33 = 256476
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input- geom
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input- keypnt $idx $jdx $kdx
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input- end
the current model consist of:
* a standard partition which contains no skewed elements
x node coordinates - minimum= -0.3500000E-01
maximum= 0.000000
x element spacing - minimum= 0.6034449E-03
maximum= 0.6034505E-03
y node coordinates - minimum= -0.1000000E-01
maximum= 0.7000000E-01
y element spacing - minimum= 0.5714279E-03
maximum= 0.6041676E-03
z node coordinates - minimum= -0.2000000E-01
maximum= 0.000000
z element spacing - minimum= 0.6060600E-03
maximum= 0.6060619E-03
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input- c *************************************************************************************************************
input- c
input- c Driving Conditions
input- c
input- c *************************************************************************************************************
input- c
input- c A number of predefined waveform functions can be accessed in OnScale. The DATA
input- c HIST option is used below, other examples include wavelets, gaussians and step
input- c functions. The manual details the function entries
input- c
input- c *************************************************************************************************************
current definition of freqtimefunc_1 ( real ) = 500000.0
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input- func
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input- name timefunc_1
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input- wvlt $freqtimefunc_1 1.0 4.0 0.0
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input- end
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input- c --------------------------------------------------------------
input- c Project Material List
input- c --------------------------------------------------------------
input- c -------------------------------------------------------------------------
input- c Global variables used in all the material definitions
input- c -------------------------------------------------------------------------
input- c
current definition of epvacm ( real ) = 0.8854000E-11
current definition of rmu0 ( real ) = 0.1256600E-05
input- c
input- c -------------------------------------------------------------------------
input- c Now define the axis transformation - only posx used in this file
input- c -------------------------------------------------------------------------
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input- axis
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input- form vctr
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input- defn posx car2 0. 0. 0. 1. 0. 0. 0. 1. 0.
axis definition: posx type: car2
x y z
origin: 0.000000 0.000000 0.000000
xbar direction: 0.000000 1.000000 0.000000
ybar direction: 0.000000 0.000000 1.000000
zbar direction: 1.000000 0.000000 0.000000
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input- defn negx car2 0. 0. 0. -1. 0. 0. 0. 1. 0.
axis definition: negx type: car2
x y z
origin: 0.000000 0.000000 0.000000
xbar direction: 0.000000 1.000000 0.000000
ybar direction: 0.000000 0.000000 -1.000000
zbar direction: -1.000000 0.000000 0.000000
- - - - - - - - - - - - - -
input- defn posy car2 0. 0. 0. 0. 1. 0. 0. 0. 1.
axis definition: posy type: car2
x y z
origin: 0.000000 0.000000 0.000000
xbar direction: 0.000000 0.000000 1.000000
ybar direction: 1.000000 0.000000 0.000000
zbar direction: 0.000000 1.000000 0.000000
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input- defn negy car2 0. 0. 0. 0. -1. 0. 0. 0. 1.
axis definition: negy type: car2
x y z
origin: 0.000000 0.000000 0.000000
xbar direction: 0.000000 0.000000 1.000000
ybar direction: -1.000000 0.000000 0.000000
zbar direction: 0.000000 -1.000000 0.000000
- - - - - - - - - - - - - -
input- defn posz car2 0. 0. 0. 0. 0. 1. 1. 0. 0.
axis definition: posz type: car2
x y z
origin: 0.000000 0.000000 0.000000
xbar direction: 1.000000 0.000000 0.000000
ybar direction: 0.000000 1.000000 0.000000
zbar direction: 0.000000 0.000000 1.000000
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input- defn negz car2 0. 0. 0. 0. 0. -1. 1. 0. 0.
axis definition: negz type: car2
x y z
origin: 0.000000 0.000000 0.000000
xbar direction: 1.000000 0.000000 0.000000
ybar direction: 0.000000 -1.000000 0.000000
zbar direction: 0.000000 0.000000 -1.000000
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input- end
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input- c -------------------------------------------------------------------------
input- c Input material properties to program
input- c -------------------------------------------------------------------------
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input- matr
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input- c --------------------------------------------------------------
input- c type : PIEZO :
input- c name : pmt3 :
input- c desc : CTS 3203HD :
input- c --------------------------------------------------------------
current definition of rho ( real ) = 7820.000
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input- wvsp off
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input- type lean
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input- c define baseline stiffness coefficients (Constant electric field)
current definition of c11 ( real ) = 0.1374500E+12
current definition of c12 ( real ) = 0.8790000E+11
current definition of c13 ( real ) = 0.9230000E+11
current definition of c14 ( real ) = 0.000000
current definition of c15 ( real ) = 0.000000
current definition of c16 ( real ) = 0.000000
current definition of c22 ( real ) = 0.1374500E+12
current definition of c23 ( real ) = 0.9230000E+11
current definition of c24 ( real ) = 0.000000
current definition of c25 ( real ) = 0.000000
current definition of c26 ( real ) = 0.000000
current definition of c33 ( real ) = 0.1257400E+12
current definition of c34 ( real ) = 0.000000
current definition of c35 ( real ) = 0.000000
current definition of c36 ( real ) = 0.000000
current definition of c44 ( real ) = 0.2227900E+11
current definition of c45 ( real ) = 0.000000
current definition of c46 ( real ) = 0.000000
current definition of c55 ( real ) = 0.2227900E+11
current definition of c56 ( real ) = 0.000000
current definition of c66 ( real ) = 0.2477900E+11
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input- prop pmt3 $rho
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input- $c11 $c12 $c13 $c14 $c15 $c16 $c22
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input- $c23 $c24 $c25 $c26 $c33 $c34 $c35
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input- $c36 $c44 $c45 $c46 $c55 $c56 $c66
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input- c define baseline dielectric coefficients
current definition of epxx ( real ) = 1305.800
current definition of epyy ( real ) = 1305.800
current definition of epzz ( real ) = 1200.200
input- c scale material properties as specified above
current definition of aepxx ( real ) = 0.1156155E-07
current definition of aepyy ( real ) = 0.1156155E-07
current definition of aepzz ( real ) = 0.1062657E-07
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input- elec pmt3 $aepxx $aepyy $aepzz
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input- c define baseline piezoelectric coupling coefficients
current definition of ex1 ( real ) = 0.000000
current definition of ex2 ( real ) = 0.000000
current definition of ex3 ( real ) = 0.000000
current definition of ex4 ( real ) = 0.000000
current definition of ex5 ( real ) = 16.05400
current definition of ex6 ( real ) = 0.000000
current definition of ey1 ( real ) = 0.000000
current definition of ey2 ( real ) = 0.000000
current definition of ey3 ( real ) = 0.000000
current definition of ey4 ( real ) = 16.05400
current definition of ey5 ( real ) = 0.000000
current definition of ey6 ( real ) = 0.000000
current definition of ez1 ( real ) = -9.440000
current definition of ez2 ( real ) = -9.440000
current definition of ez3 ( real ) = 22.49500
current definition of ez4 ( real ) = 0.000000
current definition of ez5 ( real ) = 0.000000
current definition of ez6 ( real ) = 0.000000
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input- piez pmt3 1 1 $ex1 1 2 $ex2 1 3 $ex3 1 4 $ex4 1 5 $ex5 1 6 $ex6 &
2 1 $ey1 2 2 $ey2 2 3 $ey3 2 4 $ey4 2 5 $ey5 2 6 $ey6 &
3 1 $ez1 3 2 $ez2 3 3 $ez3 3 4 $ez4 3 5 $ez5 3 6 $ez6
irow,jcol,value 1 1 0.000000
irow,jcol,value 1 2 0.000000
irow,jcol,value 1 3 0.000000
irow,jcol,value 1 4 0.000000
irow,jcol,value 1 5 16.05400
irow,jcol,value 1 6 0.000000
irow,jcol,value 2 1 0.000000
irow,jcol,value 2 2 0.000000
irow,jcol,value 2 3 0.000000
irow,jcol,value 2 4 16.05400
irow,jcol,value 2 5 0.000000
irow,jcol,value 2 6 0.000000
irow,jcol,value 3 1 -9.440000
irow,jcol,value 3 2 -9.440000
irow,jcol,value 3 3 22.49500
irow,jcol,value 3 4 0.000000
irow,jcol,value 3 5 0.000000
irow,jcol,value 3 6 0.000000
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input- rdmp pmt3 $freqdamp q 90 90 1e+06 * * *
****warning from inlrdm :
Volumetric coefficient negative, set = 0
Damping Measures at frequency = 500000.0
Dilatational db/unit length = 7.337E+01
Dilatational q = 4.500E+01
Dilatational % critical = 1.111E+00
Shear db/unit length = 1.764E+02
Shear q = 4.500E+01
Shear % critical = 1.111E+00
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input- axis pmt3 posy /* relate materials local system to global system
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input- c --------------------------------------------------------------
input- c type : EPOXY :
input- c name : back25 :
input- c desc : Backing, tungsten loaded epoxy, 25%vf, 10 MRayl :
input- c --------------------------------------------------------------
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input- wvsp on
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input- type elas
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input- prop back25 5710.00 1750.00 935.000 0.010000
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input- vdmp back25 $freqdamp db 290 870 3e+07 1 0.01 1
Damping Measures at frequency = 500000.0
Dilatational db/unit length = 4.833E+02
Dilatational q = 1.613E+01
Dilatational % critical = 3.098E+00
Shear db/unit length = 1.450E+03
Shear q = 1.006E+01
Shear % critical = 4.962E+00
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input- c define baseline dielectric coefficients
current definition of epxx ( real ) = 4.000000
current definition of epyy ( real ) = 1.000000
current definition of epzz ( real ) = 1.000000
input- c scale material properties as specified above
current definition of aepxx ( real ) = 0.3541600E-10
current definition of aepyy ( real ) = 0.8854000E-11
current definition of aepzz ( real ) = 0.8854000E-11
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input- elec back25 $aepxx $aepyy $aepzz
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input- c --------------------------------------------------------------
input- c type : EPOXY :
input- c name : hard :
input- c desc : Vantico HY1300/CY1301 :
input- c --------------------------------------------------------------
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input- wvsp on
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input- type elas
- - - - - - - - - - - - - -
input- prop hard 1149.00 2536.00 1179.00 0.010000
- - - - - - - - - - - - - -
input- vdmp hard $freqdamp db 2.87 7.38 1e+06 1 0.01 1
Damping Measures at frequency = 500000.0
Dilatational db/unit length = 1.435E+02
Dilatational q = 3.749E+01
Dilatational % critical = 1.334E+00
Shear db/unit length = 3.690E+02
Shear q = 3.136E+01
Shear % critical = 1.594E+00
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input- c define baseline dielectric coefficients
current definition of epxx ( real ) = 4.000000
current definition of epyy ( real ) = 1.000000
current definition of epzz ( real ) = 1.000000
input- c scale material properties as specified above
current definition of aepxx ( real ) = 0.3541600E-10
current definition of aepyy ( real ) = 0.8854000E-11
current definition of aepzz ( real ) = 0.8854000E-11
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input- elec hard $aepxx $aepyy $aepzz
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input- c --------------------------------------------------------------
input- c type : METAL :
input- c name : stst :
input- c desc : Stainless Steel, generic :
input- c --------------------------------------------------------------
- - - - - - - - - - - - - -
input- wvsp on
- - - - - - - - - - - - - -
input- type elas
- - - - - - - - - - - - - -
input- prop stst 7890.00 5790.00 3100.00 0.010000
- - - - - - - - - - - - - -
input- vdmp stst $freqdamp db 0.3 1.2 1e+06 1 0.01 1
Damping Measures at frequency = 500000.0
Dilatational db/unit length = 1.500E+01
Dilatational q = 1.571E+02
Dilatational % critical = 3.183E-01
Shear db/unit length = 6.000E+01
Shear q = 7.335E+01
Shear % critical = 6.816E-01
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input- c --------------------------------------------------------------
input- c type : RUBBER :
input- c name : uret :
input- c desc : Urethane :
input- c --------------------------------------------------------------
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input- wvsp on
- - - - - - - - - - - - - -
input- type elas
- - - - - - - - - - - - - -
input- prop uret 1020.00 1560.00 500.000 0.010000
- - - - - - - - - - - - - -
input- vdmp uret $freqdamp db 25 75 1e+06 1 0.01 1
Damping Measures at frequency = 500000.0
Dilatational db/unit length = 1.250E+03
Dilatational q = 6.997E+00
Dilatational % critical = 7.128E+00
Shear db/unit length = 3.750E+03
Shear q = 7.277E+00
Shear % critical = 6.855E+00
- - - - - - - - - - - - - -
input- c define baseline dielectric coefficients
current definition of epxx ( real ) = 4.000000
current definition of epyy ( real ) = 1.000000
current definition of epzz ( real ) = 1.000000
input- c scale material properties as specified above
current definition of aepxx ( real ) = 0.3541600E-10
current definition of aepyy ( real ) = 0.8854000E-11
current definition of aepzz ( real ) = 0.8854000E-11
- - - - - - - - - - - - - -
input- elec uret $aepxx $aepyy $aepzz
- - - - - - - - - - - - - -
input- c --------------------------------------------------------------
input- c type : FLUID :
input- c name : watr :
input- c desc : Water at 25C :
input- c --------------------------------------------------------------
- - - - - - - - - - - - - -
input- wvsp on
- - - - - - - - - - - - - -
input- type elas
- - - - - - - - - - - - - -
input- prop watr 1000.00 1496.00 0.00000 0.
- - - - - - - - - - - - - -
input- vdmp watr $freqdamp db 0.002 0 1e+06 2 0.01 *
Damping Measures at frequency = 500000.0
Dilatational db/unit length = 5.000E-02
Dilatational q = 1.824E+05
Dilatational % critical = 2.741E-04
Shear db/unit length = 0.000E+00
Shear q = 0.000E+00
Shear % critical = 0.000E+00
- - - - - - - - - - - - - -
input- thrm watr 4181 0.61 0.61 0.61 1.0 0 0 27
- - - - - - - - - - - - - -
input- c define baseline dielectric coefficients
current definition of epxx ( real ) = 3.000000
current definition of epyy ( real ) = 1.000000
current definition of epzz ( real ) = 1.000000
input- c scale material properties as specified above
current definition of aepxx ( real ) = 0.2656200E-10
current definition of aepyy ( real ) = 0.8854000E-11
current definition of aepzz ( real ) = 0.8854000E-11
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input- elec watr $aepxx $aepyy $aepzz
- - - - - - - - - - - - - -
input- elec void $epvacm
- - - - - - - - - - - - - -
input- end
lean material properties
--------------------------------------------------------------------------------
parm pmt3
---- --------------------
1 rho 7820.000
2 bulk 0.1027302E+12
3 shr 0.2311233E+11
4 hrgl 0.1000000E-01
7 ldmp 0.000000
8 qdmp 0.000000
9 c11 0.1374500E+12
10 c12 0.8790000E+11
11 c13 0.9230000E+11
12 c14 0.000000
13 c15 0.000000
14 c16 0.000000
15 c22 0.1374500E+12
16 c23 0.9230000E+11
17 c24 0.000000
18 c25 0.000000
19 c26 0.000000
20 c33 0.1257400E+12
21 c34 0.000000
22 c35 0.000000
23 c36 0.000000
24 c44 0.2227900E+11
25 c45 0.000000
26 c46 0.000000
27 c55 0.2227900E+11
28 c56 0.000000
29 c66 0.2477900E+11
cmpl s11 0.1565605E-10
cmpl s12 -0.4525587E-11
cmpl s13 -0.8170364E-11
cmpl s14 0.000000
cmpl s15 0.000000
cmpl s16 0.000000
cmpl s22 0.1565605E-10
cmpl s23 -0.8170364E-11
cmpl s24 0.000000
cmpl s25 0.000000
cmpl s26 0.000000
cmpl s33 0.1994790E-10
cmpl s34 0.000000
cmpl s35 0.000000
cmpl s36 0.000000
cmpl s44 0.4488532E-10
cmpl s45 0.000000
cmpl s46 0.000000
cmpl s55 0.4488532E-10
cmpl s56 0.000000
cmpl s66 0.4035675E-10
elec esxx 0.1156155E-07
elec esyy 0.1156155E-07
elec eszz 0.1062657E-07
elec esyz 0.000000
elec esxz 0.000000
elec esxy 0.000000
elec etxx 0.2312989E-07
elec etyy 0.2312989E-07
elec etzz 0.2964446E-07
elec etyz 0.000000
elec etxz 0.000000
elec etxy 0.000000
piez ex1 0.000000
piez ex2 0.000000
piez ex3 0.000000
piez ex4 0.000000
piez ex5 16.05400
piez ex6 0.000000
piez ey1 0.000000
piez ey2 0.000000
piez ey3 0.000000
piez ey4 16.05400
piez ey5 0.000000
piez ey6 0.000000
piez ez1 -9.440000
piez ez2 -9.440000
piez ez3 22.49500
piez ez4 0.000000
piez ez5 0.000000
piez ez6 0.000000
piez dx1 0.000000
piez dx2 0.000000
piez dx3 0.000000
piez dx4 0.000000
piez dx5 0.7205889E-09
piez dx6 0.000000
piez dy1 0.000000
piez dy2 0.000000
piez dy3 0.000000
piez dy4 0.7205889E-09
piez dy5 0.000000
piez dy6 0.000000
piez dz1 -0.2888639E-09
piez dz2 -0.2888639E-09
piez dz3 0.6029845E-09
piez dz4 0.000000
piez dz5 0.000000
piez dz6 0.000000
axis posy
cp 4708.359
cs 1687.891
vcap material properties
--------------------------------------------------------------------------------
parm back25 hard stst uret watr
---- -------------------- -------------------- -------------------- -------------------- --------------------
1 rho 5710.000 1149.000 7890.000 1020.000 1000.000
2 bulk 0.1128830E+11 0.5393363E+10 0.1637208E+12 0.2517264E+10 0.2238029E+10
3 shr 0.5557812E+10 0.1650195E+10 0.7687447E+11 0.2972537E+09 0.000000
4 hrgl 0.1000000E-01 0.1000000E-01 0.1000000E-01 0.1000000E-01 0.000000
7 ldmp 0.000000 0.000000 0.000000 0.000000 0.000000
8 qdmp 0.000000 0.000000 0.000000 0.000000 0.000000
9 ltyp -1.000000 -1.000000 -1.000000 -1.000000 -1.000000
10 a 0.000000 0.000000 0.000000 0.000000 0.000000
11 b 0.000000 0.000000 0.000000 0.000000 0.000000
12 c 0.000000 0.000000 0.000000 0.000000 0.000000
13 d 0.000000 0.000000 0.000000 0.000000 0.000000
14 w 0.000000 0.000000 0.000000 0.000000 0.000000
15 r 0.000000 0.000000 0.000000 0.000000 0.000000
16 anon 1.000000 1.000000 1.000000 1.000000 1.000000
17 geop 0.000000 0.000000 0.000000 0.000000 0.000000
18 xint 0.000000 0.000000 0.000000 0.000000 0.000000
19 xntn 0.000000 0.000000 0.000000 0.000000 0.000000
20 ttyp 0.000000 0.000000 0.000000 0.000000 0.000000
21 fcut 0.000000 0.000000 0.000000 0.000000 0.000000
22 elst 0.000000 0.000000 0.000000 0.000000 0.000000
23 tauv 0.2943307E-06 0.3030457E-06 0.3171216E-06 0.2379121E-06 0.3183064E-06
24 taud 0.2606388E-06 0.2986328E-06 0.3097474E-06 0.2410719E-06 0.000000
25 rksf 0.9246674 0.9520462 0.9962668 0.7474229 0.9999890
26 rgsf 0.8188208 0.9381825 0.9731002 0.7573498 1.000000
elec esxx 0.3541600E-10 0.3541600E-10 0.000000 0.3541600E-10 0.2656200E-10
elec esyy 0.8854000E-11 0.8854000E-11 0.000000 0.8854000E-11 0.8854000E-11
elec eszz 0.8854000E-11 0.8854000E-11 0.000000 0.8854000E-11 0.8854000E-11
elec esyz 0.000000 0.000000 0.000000 0.000000 0.000000
elec esxz 0.000000 0.000000 0.000000 0.000000 0.000000
elec esxy 0.000000 0.000000 0.000000 0.000000 0.000000
cp 1809.622 2570.778 5808.739 1690.110 1496.004
cs 986.5836 1198.416 3121.422 539.8381 0.000000
- - - - - - - - - - - - - -
input- c *************************************************************************************************************
input- c
input- c Primitive Definitions
input- c
input- c *************************************************************************************************************
- - - - - - - - - - - - - -
input- site
cad geometry:Transducer.STEP
Number of parts: 5 of which 5 parts are closed
Part: 1 = default
Part: 2 = default
Part: 3 = default
Part: 4 = default
Part: 5 = default
- - - - - - - - - - - - - -
input- regn watr
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input- cadmap cad_1 * * * * * * * stnd *
- - - - - - - - - - - - - -
input- end
Model contains the following continuum elements:
material elements Volume
pmt3 1505 3.1452262E-07
back25 7107 1.5704651E-06
hard 645 1.4034103E-07
stst 14301 3.1351633E-06
uret 6814 1.4801180E-06
watr 226104 4.9429775E-05
void 0 0.0000000E+00
Bounding Box XYZ
material xmin xmax ymin ymax zmin zmax
pmt3 -1.0258621E-02 0.0000000E+00 1.8999999E-02 2.3000000E-02 -9.6969698E-03 0.0000000E+00
back25 -1.2068965E-02 0.0000000E+00 5.1041665E-03 1.8999999E-02 -1.2121212E-02 0.0000000E+00
hard -1.0258621E-02 0.0000000E+00 2.3000000E-02 2.4784811E-02 -9.6969698E-03 0.0000000E+00
stst -2.2327587E-02 0.0000000E+00 2.7083326E-04 2.4784811E-02 -1.5757576E-02 0.0000000E+00
uret -1.3879310E-02 0.0000000E+00 5.1041665E-03 2.4784811E-02 -1.3939394E-02 0.0000000E+00
watr -3.5000000E-02 0.0000000E+00 -9.9999998E-03 7.0000000E-02 -2.0000000E-02 0.0000000E+00
Bounding Box IJK
material imin imax jmin jmax kmin kmax
pmt3 42 59 49 56 18 34
back25 39 59 26 49 14 34
hard 42 59 56 59 18 34
stst 22 59 18 59 8 34
uret 36 59 26 59 11 34
watr 1 59 1 135 1 34
- - - - - - - - - - - - - -
input- c *************************************************************************************************************
input- c
input- c Boundary Definitions
input- c
input- c *************************************************************************************************************
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input- boun
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input- side xmin absr
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input- side xmax absr
- - - - - - - - - - - - - -
input- side ymin absr
- - - - - - - - - - - - - -
input- side ymax absr
- - - - - - - - - - - - - -
input- side zmin absr
- - - - - - - - - - - - - -
input- side zmax symm
- - - - - - - - - - - - - -
input- end
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input- c *************************************************************************************************************
input- c
input- c Calculated Properties
input- c
input- c *************************************************************************************************************
input- c
input- c By default, Flex only calculates the minimum required data set, typically this
input- c means only velocities. This is done for memory efficiency. Should other
input- c properites be required (e.g. displacements, stresses, strains, pressure), then
input- c these must be requested by the CALC command. The manual lists all these options
input- c
input- c *************************************************************************************************************
- - - - - - - - - - - - - -
input- calc
- - - - - - - - - - - - - -
input- pres acoustic /* calculate acoustic pressure
- - - - - - - - - - - - - -
input- max aprs apmn apmx /* calculate min/max acoustic pressure
- - - - - - - - - - - - - -
input- disp y /* calculate displacements
ydsp will be calculated
- - - - - - - - - - - - - -
input- end
- - - - - - - - - - - - - -
input- c *************************************************************************************************************
input- c
input- c Piezoelectric Load Definitions
input- c
input- c *************************************************************************************************************
- - - - - - - - - - - - - -
input- piez
- - - - - - - - - - - - - -
input- wndo auto piez
Electric wndo:
42 59 49 56 18 34
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input- defn load_1 1.0
- - - - - - - - - - - - - -
input- nod2 pmt3 back25
249 nodes have been added to electrode load_1
- - - - - - - - - - - - - -
input- bc load_1 grnd
- - - - - - - - - - - - - -
input- defn load_2 1.0
- - - - - - - - - - - - - -
input- nod2 pmt3 hard
249 nodes have been added to electrode load_2
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input- bc load_2 volt functimefunc_1 1.0 0.0
- - - - - - - - - - - - - -
input- slvr drct
Band solver will be used for electrostatic solution
- - - - - - - - - - - - - -
input- end
Electrode 1 name=load_1 number of nodes= 249
Electrode 2 name=load_2 number of nodes= 249
Indices of circuit unknowns in crtq and crtv arrays
------- -- ------- -------- -- ---- --- ---- ------
Electrode load_1 1
sers rest 0.0000E+00 2 3
Source 4
Electrode load_2 5
sers rest 0.0000E+00 6 7
Source 8
- - - - - - - - - - - - - -
input- time * * 0.8
Problem start time= 0.000000
Model time step will be automatically set to 0.80000 of allowable
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input- c *************************************************************************************************************
input- c
input- c Process Model
input- c
input- c *************************************************************************************************************
input- c
input- c Issue process (PRCS) command. Checks model integrity, and calculates stable
input- c time step. NOTE: Process command must always be issued
input- c
input- c *************************************************************************************************************
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input- prcs
Elapsed seconds at Begin PRCS = 2.228E-01
Single Precision bytes per word: 4
Rough Estimate of RAM requirements for this job
Base Mechanical: 0.008
Calc arrays: 0.009
Piez arrays: 0.005
Aux arrays: 0.006
_____________________________________
Total RAM (Gbyte): 0.034
Elapsed seconds at Begin Continuum = 2.816E-01
zone 1 type=stnd
ibeg= 1 iend= 58 jbeg= 1 jend= 134 kbeg= 1 kend= 33
min distance= 0.5714279E-03 for i= 1 j= 49 k= 1 material=watr
min transit= 0.9837382E-07 for i= 49 j= 49 k= 8 material=stst
max time step= 0.7869905E-07
Elapsed seconds at End Continuum = 2.947E-01
Elapsed seconds at Begin BOUN = 2.948E-01
Absorber type boundary cond. not allowed on piezo material ---- pmt3
data manager summary: last name = 199 maximum names= 20000
(numeric ) words used = 1596659 maximum words = 100000767
(character) words used = 2279 maximum words = 100000
Equivalently in Mbytes:
(numeric ) Mbyte used = 6 maximum Mbyte = 400
(character) Mbyte used = 1 maximum Mbyte = 2
*******************************************************************************
* PZFlex processing started at Tue Aug 23 12:32:22 2022 *
* PZFlex processing suspended-error detected at Tue Aug 23 12:32:23 2022 *
*******************************************************************************
* Machine: tl747 Warnings: 1 *
*******************************************************************************
* Total cpu minutes for job: 0.6067467E-02 *
*******************************************************************************
1 comment
Hi Sara,
It looks like you are applying an absorbing boundary condition on a piezoelectric material (pmt3). This is not allowed. Which tutorial are you following, could you provide me the link please?
Thanks,
Chloe
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