# #=Comment
# All fields must be integers or reals
# Allowed siblings (DO NOT EDIT): 1420962043

######################################################################################################
# Keyword definitions...

# Specify flow velocities as a predefined field for acoustic elements
*ACOUSTIC FLOW VELOCITY
, , , Mag

# Specify an acoustic medium
*ACOUSTIC MEDIUM, BULK MODULUS
BulkModulus, Temp
*ACOUSTIC MEDIUM, CAVITATION LIMIT
CavitationPressureLimit, Temp
*ACOUSTIC MEDIUM, VOLUMETRIC DRAG
VolumetricDragCoeff, Freq, Temp

# Specify constraints on the motion of the mesh for an adaptive mesh domain
*ADAPTIVE MESH CONSTRAINT
, , , Mag

# Specify controls for the adaptive meshing and advection algorithms
*ADAPTIVE MESH CONTROLS
Weight1, Weight2, Weight3

# Define an amplitude curve
*AMPLITUDE
Time1, Amplitude1, Time2, Amplitude2

# Specify material properties for modeling annealing or melting
*ANNEAL TEMPERATURE
AnnealingTemp

# Define fluid variables for use in loading immersed beam-type structures
*AQUA
SeabedElevation, StillFluidSurfaceElevation, Gravity, FluidMassDensity
Vx, Vy, Vz, Elevation, X, Y

# Used to define the axial behavior of beams
*AXIAL
Stiffness, Temp

# Define the base motion for linear, eigenmode-based, dynamic procedures
*BASE MOTION
X, Y, Z

# Define additional beam inertia
*BEAM ADDED INERTIA
Mass, X1, X2, Orientation, I11, I22, I12

# Define additional beam inertia due to immersion in a fluid
*BEAM FLUID INERTIA
Mass, X, Y, Radius, CA, CAE

# Specify a beam section when numerical integration over the section is not required
*BEAM GENERAL SECTION
Area, I11, I12, I22, J, Gamma0
DirCos1, DirCos2, DirCos3
YoungsModulus, ShearModulus

# Specify a beam section when numerical integration over the section is required
*BEAM SECTION
SectionGeomData, ,
*BEAM SECTION, SECTION=CIRC
SectionGeomData, ,
*BEAM SECTION, SECTION=ELBOW
PipeOuterRadius, PipeWallThick
 , , 
 , , 
*BEAM SECTION, SECTION=PIPE
SectionGeomData, Thickness,

# Define bonds and bonding properties
*BOND
, MaxNormalForce, MaxShearForce, InitialBeadSize

# Specify boundary conditions
*BOUNDARY
, , , Mag

# Define brittle cracking properties
*BRITTLE CRACKING
SigmaT, DirectCracking, Temp

# Specify brittle failure criterion
*BRITTLE FAILURE
DirectCracking, Temp

# Define the postcracking shear behavior of a material used with the brittle cracking model
*BRITTLE SHEAR
Rho, Epsilon, Temp

# Define a nondefault buckling envelope for buckling strut response of frame elements with PIPE sections
*BUCKLING ENVELOPE
Coeff1, Coeff2, Coeff3, Coeff4, Coeff5, Coeff6, Coeff7

# Define buckling length data for buckling strut response of frame elements with PIPE sections
*BUCKLING LENGTH
LenFactor1, LenFactor2, AddedLen1, AddedLen2

# Define buckling reduction factors for buckling strut response of frame elements with PIPE sections
*BUCKLING REDUCTION FACTORS
ReductionFactor1, ReductionFactor2

# Modify bulk viscosity parameters
*BULK VISCOSITY
Linear, Quadratic

# Specify concentrated added mass in a *FREQUENCY step
*C ADDED MASS
, , TangentialAddedMassCoeff, StructuralAccelShapeFactor
CosX, CoxY, CoxZ

# Specify Drucker-Prager/Cap plasticity hardening
*CAP HARDENING
HydrostaticPressureYieldStress, VolumetricInelasticStrain, Temp

# Specify the Modified Drucker-Prager/Cap plasticity model
*CAP PLASTICITY
Cohesion, FrictionAngle, Eccentricity, InitialYieldPos, TransitionSurfaceRadius, K, Temp

# Define the molar heat capacity at constant pressure for an ideal gas species
*CAPACITY, TYPE=POLYNOMIAL
A, B, C, D, E
*CAPACITY, TYPE=TABULAR
Cp, Temp

# Specify hardening in compression for the gray cast iron plasticity model
*CAST IRON COMPRESSION HARDENING
YieldStress, PlasticStrain, , Temp

# Define film coefficients and associated sink temperatures at one or more nodes or vertices
*CFILM
, Area, SinkTemp, FilmCoeff

# Specify concentrated fluid flow
*CFLOW
, , Mag

# Specify concentrated fluxes in heat transfer or mass diffusion analyses
*CFLUX
, , Mag

# Specify concentrated forces and moments
*CLOAD
, , Mag

# Specify thermal conductivity
*CONDUCTIVITY
K, Temp
*CONDUCTIVITY, TYPE=ISO
K, Temp
*CONDUCTIVITY,  TYPE=ORTHO
K11, K22, K33, Temp

# Define connector damping behavior
*CONNECTOR DAMPING
DampingCoeff, , Temp

# Define connector elastic behavior
*CONNECTOR ELASTICITY
Stiffness, ,Temp

# Define a creep law
*CREEP, LAW=TIME
A, N, M, Temp
*CREEP, LAW=STRAIN
A, N, M, Temp
*CREEP, LAW=HYPERB
A, B, N, DeltaH, R

# Specify distributed added mass in a *FREQUENCY step
*D ADDED MASS
, , Coeff, StructuralAccelShapeFactor

# Define dashpot behavior
*DASHPOT
Coeff, Freq, Temp

# Specify material mass density
*DENSITY
MassDensity, Temp

# Specify distributed fluxes in heat transfer or mass diffusion analyses
*DFLUX
, , Mag

# Specify dielectric material properties
*DIELECTRIC, TYPE=ISO
DielectricConstant, Temp
*DIELECTRIC, TYPE=ORTHO
D11, D22, D33, Temp
*DIELECTRIC, TYPE=ANISO
D11, D12, D22, D13, D23, D33, Temp

# Specify mass diffusivity
*DIFFUSIVITY, TYPE=ISO
D, Concentration, Temp
*DIFFUSIVITY, TYPE=ORTHO
D11, D22, D33, Concentration, Temp
*DIFFUSIVITY, TYPE=ANISO
D11, D12, D22, D13, D23, D33, Concentration, Temp

# Specify distributed loads
*DLOAD
, , Mag, , , 

# Specify the extended Drucker-Prager plasticity model
*DRUCKER PRAGER
Beta, K, DilationAngle, Temp

# Specify hardening for Drucker-Prager plasticity models
*DRUCKER PRAGER HARDENING
YieldStress

# Specify distributed surface fluxes for heat transfer analysis
*DSFLUX
, , Mag

# Specify distributed surface loads
*DSLOAD
<<ID>>, , Mag

# Dynamic stress/displacement analysis
#*DYNAMIC
#,TimeStep

# Dynamic coupled thermal-stress analysis using explicit integration
#*DYNAMIC TEMPERATURE-DISPLACEMENT
#, TimePeriod, ,MaxTimeInc

# Specify elastic material properties
*ELASTIC
YoungsModulus, PoissonRatio, Temp
*ELASTIC, TYPE=ISOTROPIC
YoungsModulus, PoissonRatio, Temp
*ELASTIC, TYPE=LAMINA
E1, E2, Nu12, G12, G13, G23, Temp

# Define elements by giving their nodes (Commented Out)
#*ELEMENT
#<<EID>>, Node1, Node2

# Specify surface emissivity
*EMISSIVITY
E, Temp

# Specify thermal expansion
*EXPANSION
Alpha, Temp
*EXPANSION, TYPE=ISO
Alpha, Temp
*EXPANSION, TYPE=ORTHO
Alpha11, Alpha22, Alpha33, Temp

# Define parameters for strain-based failure measures
*FAIL STRAIN
TensileFiber, CompressiveFiber, TensileTransverse, CompressiveTransverse, Shear, Temp

# Define parameters for stress-based failure measures
*FAIL STRESS
TensileFiber, CompressiveFiber, TensileTransverse, CompressiveTransverse, Shear, CrossTerm, Biaxial, Temp

# Define a film coefficient as a function of temperature and field variables
*FILM PROPERTY
FilmCoeff, Temp

* Define compressibility for a hydraulic fluid
*FLUID BULK MODULUS
K, Temp

# Specify hydrostatic fluid density
*FLUID DENSITY
ReferenceFluidDensity

# Change the amount of fluid in a fluid-filled cavity
*FLUID FLUX
, Mag

# Specify a friction model
*FRICTION
Coeff, SlipRate, ContactPressure, AvgTemp

# Specify clearance and local geometry for GAP-type elements
*GAP
D

# Transient or steady state uncoupled heat transfer analysis
#*HEAT TRANSFER
#InitialTimeInc, TotalTimePeriod, MinimumTimeInc, MaxTimeInc, TempChangeRate

# Specify a point capacitance
*HEATCAP
Mag, Temp

# Specify elastic properties for approximately incompressible elastomers
*HYPERELASTIC
mu1, alpha1, D1

# Specify hypoelastic material properties
*HYPOELASTIC
E, Nu, I1, I2, I3

# Specify a rate-dependent elastomer model
*HYSTERESIS
StressScaling, Creep, StressExponent, CreepStrainExponent, E

# Define the impedance parameters for an acoustic medium boundary
*IMPEDANCE PROPERTY
ImaginaryAdmittance, RealAdmittance

# Specify initial conditions for the model
*INITIAL CONDITIONS, TYPE=ACOUSTIC STATIC PRESSURE
<<NodeId>>, Pressure1, x1, y1, z1, Pressure2, x2, y2, z2
*INITIAL CONDITIONS, TYPE=CONCENTRATION
<<NodeId>>, Concentration
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
<<NodeId>>, FluidPressure
*INITIAL CONDITIONS, TYPE=MASS FLOW RATE
<<NodeId>>, MassFlowRateX, MassFlowRateY, MassFlowRateZ
*INITIAL CONDITIONS, TYPE=PRESSURE STRESS
<<NodeId>>, EquivalentPressureStress
*INITIAL CONDITIONS, TYPE=RELATIVE DENSITY
<<NodeId>>, InitRelativeDensity
*INITIAL CONDITIONS, TYPE=SATURATION
<<NodeId>>, Saturation
*INITIAL CONDITIONS, TYPE=STRESS
<<ElemId>>, EffectiveStressComp
*INITIAL CONDITIONS, TYPE=STRESS
<<ElemId>>, EffectiveStressComp, a
*INITIAL CONDITIONS, TYPE=TEMPERATURE
<<NodeId>>, Temp
*INITIAL CONDITIONS, TYPE=VELOCITY
<<NodeId>>, dof, Velocity

# Specify elastic properties for elastic-plastic joint elements
*JOINT ELASTICITY, MODULI=SPUD CAN, NDIM=2
Gvv, Ghh, Grr, Poisson, Temp
*JOINT ELASTICITY, MODULI=SPUD CAN, NDIM=3
Gvv, Ghh, Grr, Poisson, Kt, Temp
*JOINT ELASTICITY, MODULI=GENERAL, NDIM=2
K1111, K1122, K2222, K1112, K2212, K1212, Temp
*JOINT ELASTICITY, MODULI=GENERAL, NDIM=3
K1111, K1122, K2222, K1133, K2233, K3333, K1112, K2212
K3312, K1212, K1113, K2213, K3313, K1213, K1313, K1123
K2223, K3323, K1223, K1323, K2323, Temp

# Define the fraction of electric energy released as heat
*JOULE HEAT FRACTION
Fraction

# Specify latent heats
*LATENT HEAT
LatentHeat, SolidusTemp, LiquidusTemp

# Specify a point mass
*MASS
MassMag, 

# Specify fluid mass flow rate in a heat transfer analysis
*MASS FLOW RATE
, RateX, RateY, RateZ

# Specify nodal coordinates (Commented Out)
#*NODE
#<<NID>>, x1, x2, x3

# Define shell or membrane thickness at nodes
*NODAL THICKNESS
<<ID>>, Thickness

# Specify mass contribution to the model from nonstructural features
*NONSTRUCTURAL MASS
Mass

# Define parameters for input parametrization
*PARAMETER
<<ID>>, Value

# Define permeability for pore fluid flow
*PERMEABILITY, TYPE=ISOTROPIC
K, VoidRatio, Temp
*PERMEABILITY, TYPE=ORTHOTROPIC
K11, K22, K33, VoidRatio, Temp
*PERMEABILITY, TYPE=ANISOTROPIC
K11, K12, K22, K13, K23, K33, VoidRatio, Temp
*PERMEABILITY, TYPE=SATURATION
K, Saturation
*PERMEABILITY, TYPE=VELOCITY
Beta, VoidRatio

# Specify a metal plasticity model
*PLASTIC
YieldStress, PlasticStrain, Temp

# Specify radiation conditions in heat transfer analyses
*RADIATE
, , Temp, Emissivity

# Define rigid body rotary inertia
*ROTARY INERTIA
I11, I22, I33, I12, I13, I23

# Define film coefficients and associated sink temperatures over a surface for heat transfer analysis
*SFILM
, , SinkTemp, FilmCoeff

# Define a general, arbitrary elastic shell section
*SHELL GENERAL SECTION
Thickness

# Specify a shell cross-section
*SHELL SECTION
Thickness, NumIntegrationPoints
*SHELL SECTION, COMPOSITE
Thickness, , , Orientation,

# Apply loads to a substructure
*SLOAD
, , Mag

# Specify element properties for solid, infinite, acoustic, and truss elements
*SOLID SECTION
Sol

# Define specific heat
*SPECIFIC HEAT
SpecificHeat, Temp

# Define spring behavior
*SPRING
Stiffness

# Static stress/displacement analysis
#*STATIC
#InitialTimeInc, StepTimePeriod, MinimumTimeInc, MaxTimeInc

# Steady-state dynamic response based on harmonic excitation
#*STEADY STATE DYNAMICS
#LowerFreq, UpperFreq, NumPoints, Bias

# Specify time-dependent volumetric swelling
*SWELLING
SwellingStrainRate, Temp

# Specify temperature as a predefined field
*TEMPERATURE
, Temp, Gradient2, Gradient1

# Define the thermal expansion behavior of beams
*THERMAL EXPANSION
Coeff, Temp

# Specify viscous material properties for the two-layer viscoplastic model
*VISCOUS, LAW=TIME
A, N, M, F, Temp
*VISCOUS, LAW=STRAIN
A, N, M, F, Temp
*VISCOUS, LAW=USER
F, Temp

# Define wind velocity profile for wind loading
*WIND
Density, RefHeight, Cx, Cy, CosX, CosY, Alpha


######################################################################################################
# Everything below 'OUTPUT EXTRACTIONS' doesn't get read for input parsing
#
# format:
# HEADER: BASENAME 
# COPY TABLE HEADER FROM RESULTS FILE
# NAMING:<<ID>>,,NAME1,NAME2,NAME3     <<>> -> TAKE THE VALUE FROM THAT COLUMN AND USE IT IN THE NAME
# FORMAT: i12, s4,r12
#	i = integer
#	s = string/characters
#	r = real number
#	all followed by the number of spaces that block consists of
# 
# NOTE:
#      If all fields will be present in all lines of the given format, the format's numbers can be left
#      out. Also, FOOT-NOTEs are often missing, so it is highly recommended that these fields be given
#      a length ex:
# FORMAT: i,s4,r
# 
# For tables that contain multiple tabs on the same rows, use these key words:
#	HEADER: BASENAME TABLES:2 SPACE:2
# Where TABLES=number of tables represented on the same rows. SPACE= extra space seperating the tables
#
######################################################################################################
OUTPUT EXTRACTIONS

#NODE HEADERS

HEADER: NODE
       NODE FOOT-   U2      
            NOTE
NAMING: <<ID>>,,U2
FORMAT: i,s4,r

HEADER: NODE
       NODE FOOT-   U1          U2      
            NOTE
NAMING: <<ID>>,,U1,U2
MINMAXTOTALSONLY
MAXIMUM: ,,U1,U2
MINIMUM: ,,U1,U2
FORMAT: i,s4,r,r

HEADER: NODE
       NODE FOOT-   U1          U2          U3       
            NOTE
NAMING: <<ID>>,,U1,U2,U3
MINMAXTOTALSONLY
MAXIMUM: ,,U1,U2,U3
MINIMUM: ,,U1,U2,U3
FORMAT: i12,s4,r,r,r

HEADER: NODE
       NODE FOOT-   U1          U2          U3          UR1         UR2         UR3     
            NOTE
NAMING: <<ID>>,,U1,U2,U3,UR1,UR2,UR3
FORMAT: i,s4,r,r,r,r,r,r

HEADER: NODE
       NODE FOOT-   RF1         RF2     
            NOTE
NAMING: <<ID>>,,RF1,RF2
MINMAXTOTALSONLY
MAXIMUM: ,,RF1,RF2
MINIMUM: ,,RF1,RF2
FORMAT: i,s4,r,r

HEADER: NODE
       NODE FOOT-   RF1         RF2         RF3     
            NOTE
NAMING: <<ID>>,,RF1,RF2,RF3
FORMAT: i,s4,r,r,r

HEADER: NODE
       NODE FOOT-   RF1         RF2         RF3         RM1         RM2         RM3     
            NOTE
NAMING: <<ID>>,,RF1,RF2,RF3,RM1,RM2,RM3
FORMAT: i,s4,r,r,r,r,r,r


HEADER: NODE
       NODE           COORDINATES                     SINGLE POINT CONSTRAINTS 
      NUMBER                                            TYPE    PLUS    DOF
NAMING: <<NODEID>>,COORDX,COORDY,COORDZ
FORMAT: i,r,r,r

HEADER: NODE
       NODE  SEC FOOT-   S11         S22         S12     
              PT NOTE 
NAMING: <<ID>>,<<ptid>>,,S11,S22,S12
FORMAT: i,i,s6,r,r,r

HEADER: NODE
       NODE  STATUS  CPRESS      CSHEAR1     COPEN       CSLIP1  
NAMING:<<ID>>,,CPRESS,CSHEAR1,COPEN,CSLIP1
MINMAXTOTALSONLY
MAXIMUM: ,,CPRESS,CSHEAR1,COPEN,CSLIP1
MINIMUM: ,,CPRESS,CSHEAR1,COPEN,CSLIP1
FORMAT:i,s5,r,r,r,r

HEADER: NODE
       NODE                COORDINATES                          NORMAL                  SINGLE POINT CONSTRAINTS 
      NUMBER                                                                               TYPE   PLUS   DOF
NAMING: <<ID>>, COORD_X, COORD_Y, COORD_Z, NORMAL_X, NORMAL_Y, NORMAL_Z
FORMAT: i,r,r,r,r,r,r

#ELEMENT HEADERS

HEADER: ELEMENT
    ELEMENT  PT FOOT-       S11     
                NOTE 
NAMING: <<ID>>,<<PT>>,,S11
MINMAXTOTALSONLY
MAXIMUM: ,,,S11
MINIMUM: ,,,S11
FORMAT: i,i,s8,r

HEADER: ELEMENT
    ELEMENT  PT FOOT-       SF1         SM1         SM2         SM3     
                NOTE 
NAMING: <<ID>>,<<PT>>,,SF1,SM1,SM2,SM3
FORMAT: i,i,s8,r,r,r,r

HEADER: ELEMENT
    ELEMENT  PT FOOT-       S11         S22         S33         S12         S13         S23     
                NOTE 
NAMING: <<ID>>,<<PT>>,,S11,S22,S33,S12,S13,S23
MINMAXTOTALSONLY
MAXIMUM: ,,,S11,S22,S33,S12,S13,S23
MINIMUM: ,,,S11,S22,S33,S12,S13,S23
FORMAT: i,i4,s8,r,r,r,r,r,r

HEADER: ELEMENT
    ELEMENT  PT FOOT-       S11         S22         S33         S12         S13         S23         MISES   
                NOTE 
NAMING: <<ID>>,<<PT>>,,S11,S22,S33,S12,S13,S23,MISES
MINMAXTOTALSONLY
MAXIMUM: ,,,,,,,,,MISES
MINIMUM: ,,,,,,,,,MISES
FORMAT: i,i,s8,r,r,r,r,r,r,r

HEADER: ELEMENT
    ELEMENT  PT FOOT-       MISES       TRESC       PRESS       INV3    
                NOTE 
NAMING: <<ID>>,<<PT>>,,MISES,TRESC,PRESS,INV3
MINMAXTOTALSONLY
MAXIMUM: ,,,MISES,TRESC,PRESS,INV3
MINIMUM: ,,,MISES,TRESC,PRESS,INV3
FORMAT: i,i4,s8,r,r,r,r

HEADER: NODE
       NODE  FOOT-   MISES       TRESC       PRESS       INV3    
             NOTE 
NAMING: <<ID>>,MISES,TRESC,PRESS,INV3
MINMAXTOTALSONLY
MAXIMUM: ,MISES,TRESC,PRESS,INV3
MINIMUM: ,MISES,TRESC,PRESS,INV3
FORMAT: i,r,r,r,r

#MULTIPLE TABLES PER ROW EXAMPLE
HEADER: ELEMENT TABLES:2 SPACE:2
      ELEMENT         NODE               NORMAL                         ELEMENT         NODE               NORMAL
NAMING: <<ID>>, <<NODEID>>, NORMAL_X, NORMAL_Y, NORMAL_Z
FORMAT: i,i,r,r,r

#OTHER HEADERS
HEADER:
      YOUNG'S     TORSIONAL    THERMAL    TEMPERATURE
      MODULUS       SHEAR     EXPANSION
                   MODULUS   COEFFICIENT
NAMING:,youngs_mod, torsional_shear_mod, thermal_exp_coeff
FORMAT:s,r,r,r

HEADER:EIGENVAL
 MODE NO      EIGENVALUE              FREQUENCY         GENERALIZED MASS   COMPOSITE MODAL DAMPING            
                             (RAD/TIME)   (CYCLES/TIME)
NAMING:<<no>>,eigenvalue,freq_rad, freq_cycles ,gen_mass,modal_damping
FORMAT:i,r,r,r,r,r

HEADER:coords
 MODE NO    X-COMPONENT    Y-COMPONENT    Z-COMPONENT    X-ROTATION     Y-ROTATION     Z-ROTATION 
NAMING:<<no>>,X,Y,Z,XROT,YROT,ZROT
FORMAT:i,r,r,r,r,r,r

HEADER: MASS
                    TOTAL MASS OF MODEL
NAMING:Total_Mass
FORMAT:r

HEADER: CENTER_MASS
                    LOCATION OF THE CENTER OF MASS OF THE MODEL
NAMING:Center_Mass_X,Center_Mass_Y
FORMAT:r,r

HEADER: MOMENT_OF_INERTIA
                    MOMENT OF INERTIA ABOUT THE ORIGIN
                           I(ZZ)
NAMING:Moment_of_Inertia
FORMAT:r

HEADER: PRODUCT_OF_INERTIA
                    PRODUCT OF INERTIA ABOUT THE ORIGIN
                           I(XY)
NAMING:Product_of_Inertia
FORMAT:r

HEADER: MOMENT_OF_INERTIA_COM
                    MOMENT OF INERTIA ABOUT THE CENTER OF MASS
                           I(ZZ)
NAMING:Moment_of_Inertia_com
FORMAT:r

HEADER: PRODUCT_OF_INERTIA_COM
                    PRODUCT OF INERTIA ABOUT THE CENTER OF MASS
                           I(XY)
NAMING:Product_of_Inertia_com
FORMAT:r

HEADER: NODE_SET
   NUMBER  NODE SET
                                1               2               3               4               5
NAMING:<<ID>>,<<ID>>,a,b,c,d,e,@@\n
FORMAT:i,s,r,r,r,r,r

HEADER: ELEMENT
    ELEMENT  FOOT-   EVOL    
             NOTE 
NAMING: <<ID>>,<<PT>>,EVOL,@@\n
MINMAXTOTALSONLY
MAXIMUM: ,,EVOL
MINIMUM: ,,EVOL
FORMAT: i,s7,r

HEADER:DISPLACEMENT
GRID      COORDINATE        T1            T2            T3            R1            R2            R3                           
      ID           ID 
NAMING:<<ID>>,,T1,T2,T3,R1,R2,R3
FORMAT:i,i,r,r,r,r,r,r

HEADER:APPLIED_LOAD
M A X I M U M   A P P L I E D   L O A D S                                               
                                                                                                                                    
    SUBCASE         T1            T2            T3            R1            R2            R3                                        
      ID                                                            
NAMING:<<ID>>,T1,T2,T3,R1,R2,R3
FORMAT:i,r,r,r,r,r,r

HEADER:MAX_DISP
M A X I M U M   D I S P L A C E M E N T S                                               
                                                                                                                                    
    SUBCASE         T1            T2            T3            R1            R2            R3                                        
      ID                                         
NAMING:<<ID>>,T1,T2,T3,R1,R2,R3
FORMAT:i,r,r,r,r,r,r

