h3d_list_quad_scalar.F

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!||====================================================================
!||    h3d_list_quad_scalar   ../engine/source/output/h3d/input_list/h3d_list_quad_scalar.F
!||--- called by ------------------------------------------------------
!||    lech3d                 ../engine/source/output/h3d/h3d_build_fortran/lech3d.F
!||--- uses       -----------------------------------------------------
!||    h3d_mod                ../engine/share/modules/h3d_mod.F
!||    message_mod            ../engine/share/message_module/message_mod.F
!||    multi_fvm_mod          ../common_source/modules/ale/multi_fvm_mod.F90
!||    stack_mod              ../engine/share/modules/stack_mod.F
!||====================================================================
      SUBROUTINE h3d_list_quad_scalar(H3D_KEYWORD_QUAD_SCALAR,GEO,IGEO,MULTI_FVM,NKEY)
C-----------------------------------------------
C   M o d u l e s
C-----------------------------------------------
      USE message_mod
      USE h3d_mod
      USE stack_mod
      USE multi_fvm_mod
C-----------------------------------------------
C   I m p l i c i t   T y p e s
C-----------------------------------------------
#include      "implicit_f.inc"
C-----------------------------------------------
C   D u m m y   A r g u m e n t s
C-----------------------------------------------
      TYPE (H3D_KEYWORD) H3D_KEYWORD_QUAD_SCALAR(*)
      my_real geo(npropg,numgeo)
      INTEGER IGEO(NPROPGI,NUMGEO)
      TYPE(multi_fvm_struct), INTENT(IN) :: MULTI_FVM
      INTEGER, INTENT(INOUT) :: NKEY
C-----------------------------------------------
C   C o m m o n   B l o c k s
C-----------------------------------------------
#include      "com04_c.inc"
#include      "param_c.inc"
C-----------------------------------------------
C   L o c a l   V a r i a b l e s
C-----------------------------------------------
      INTEGER I,II,J,NIPMAX,IPLYMAX,CPTPLY,IPTMAX
C-----------------------------------------------
C   S o u r c e   L i n e s
C-----------------------------------------------
      i = 0
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'MASS'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Mass'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'DENS'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Density'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'ENER'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Internal Energy per unit mass'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'TEMP'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Temperature'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'THICK'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Thickness'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'P'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Pressure'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'VONM'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Von Mises'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'K'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Turbulent Energy'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'TVIS'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Turbulent Viscosity'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'VORTX'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'vorticity'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'dam1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'damage 1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'dam2'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'damage 2'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'dam3'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Damage 3'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'SIGX'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Stress X'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'SIGY'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Stress Y'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'SIGZ'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Stress Z'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'SIGXY'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'stress xy'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'sigyz'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'stress yz'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'sigzx'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Stress ZX'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'USER'
      h3d_keyword_quad_scalar(i)%IS_UVAR  = 1
      h3d_keyword_quad_scalar(i)%TEXT1  = 'User Var'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'HOURGLASS'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Hourglass Energy per unit mass'
c-----------------------------------------------
      IF (multi_fvm%IS_USED) THEN
c
c     Number of present material is dynamic for law151, hence create full list
c     of output keywords at runtime by looping over all present materials
c     
         DO ii = 1, multi_fvm%NBMAT
c-----------------------------------------------
            i = i + 1
            WRITE(h3d_keyword_quad_scalar(i)%KEY3, '(A9,I0)') 'M151VFRAC', ii
            WRITE(h3d_keyword_quad_scalar(i)%TEXT1, '(A17,I0)') 'Volume fraction ', ii
            h3d_keyword_quad_scalar(i)%COMMENT  = 'volume fractions(for ale multi-material law151)'
c-----------------------------------------------
            I = I + 1
            WRITE(H3D_KEYWORD_QUAD_SCALAR(I)%KEY3, '(a8,i0)') 'm151dens', II
            WRITE(H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1, '(a8,i0)') 'density ', II
            H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'density(for ale multi-material law151)'
c-----------------------------------------------
            I = I + 1
            WRITE(H3D_KEYWORD_QUAD_SCALAR(I)%KEY3, '(a8,i0)') 'm151ener', II
            WRITE(H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1, '(a7,i0)') 'energy ', II
            H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'energy(for ale multi-material law151)'
c-----------------------------------------------
            I = I + 1
            WRITE(H3D_KEYWORD_QUAD_SCALAR(I)%KEY3, '(a8,i0)') 'm151pres', II
            WRITE(H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1, '(a10,i0)') 'pressure ', II
            H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'pressure(for ale multi-material law151)'
c-----------------------------------------------
         ENDDO
      ELSE
c-----------------------------------------------
         I = I + 1
         H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vfrac1'
         H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric fraction 1'
         H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'volumetric fractions(for ale multi-material laws: law20, law37 and law51)'
c-----------------------------------------------
         I = I + 1
         H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vfrac2'
         H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric fraction 2'
         H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'volumetric fractions(for ale multi-material laws: law20, law37 and law51)'
c-----------------------------------------------
         I = I + 1
         H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vfrac3'
         H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric fraction 3'
         H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'volumetric fractions(for ale multi-material laws: law20, law37 and law51)'
c-----------------------------------------------
         I = I + 1
         H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vfrac4'
         H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric fraction 4'
         H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'volumetric fractions(for ale multi-material laws: law20, law37 and law51)'
c-----------------------------------------------
      ENDIF  ! MULTI_FVM%IS_USED
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'bfrac'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'burn fraction'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'ssp'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'sound speed'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'epsd'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'strain rate'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'epsp'
      H3D_KEYWORD_QUAD_SCALAR(I)%IS_LAYER = 1
      H3D_KEYWORD_QUAD_SCALAR(I)%IS_LAYER_ALL = 1
      H3D_KEYWORD_QUAD_SCALAR(I)%IS_IPT = 1
      H3D_KEYWORD_QUAD_SCALAR(I)%IS_IPT_ALL = 1
      H3D_KEYWORD_QUAD_SCALAR(I)%IS_PLY = 1
      H3D_KEYWORD_QUAD_SCALAR(I)%IS_PLY_ALL = 1
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'plastic strain '
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3   = 'tsaiwu'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'tsai-wu criterion'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'fail'
      H3D_KEYWORD_QUAD_SCALAR(I)%IS_PLY = 1
      H3D_KEYWORD_QUAD_SCALAR(I)%IS_IPT = 1
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'nb of failed layers'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'crmas'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'airbag crossing mass'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'CRVEL'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Airbag crossing velocity'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'THIN'
      h3d_keyword_quad_scalar(i)%TEXT1  = '%Thinning'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'ERROR/THICK'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Estimated Error on Thickness'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'PHI'
      h3d_keyword_quad_scalar(i)%IS_PLY = 1
      h3d_keyword_quad_scalar(i)%IS_PLY_ALL = 1
      h3d_keyword_quad_scalar(i)%IS_LAYER = 1
      h3d_keyword_quad_scalar(i)%IS_LAYER_ALL = 1
      h3d_keyword_quad_scalar(i)%IS_IPT = 1
      h3d_keyword_quad_scalar(i)%IS_IPT_ALL = 1
      h3d_keyword_quad_scalar(i)%TEXT1  = 'PHI'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'DAMA'
      h3d_keyword_quad_scalar(i)%IS_PLY = 1
      h3d_keyword_quad_scalar(i)%IS_PLY_ALL = 1
      h3d_keyword_quad_scalar(i)%IS_LAYER = 1
      h3d_keyword_quad_scalar(i)%IS_LAYER_ALL = 1
      h3d_keyword_quad_scalar(i)%IS_IPT = 1
      h3d_keyword_quad_scalar(i)%IS_IPT_ALL = 1
      h3d_keyword_quad_scalar(i)%TEXT1  = 'DAMAGE'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'FAILURE'
      h3d_keyword_quad_scalar(i)%IS_PLY = 1
      h3d_keyword_quad_scalar(i)%IS_PLY_ALL = 1
      h3d_keyword_quad_scalar(i)%IS_LAYER = 1
      h3d_keyword_quad_scalar(i)%IS_LAYER_ALL = 1
      h3d_keyword_quad_scalar(i)%IS_IPT = 1
      h3d_keyword_quad_scalar(i)%IS_IPT_ALL = 1
      h3d_keyword_quad_scalar(i)%IS_ID = 1
      h3d_keyword_quad_scalar(i)%IS_MODE = 1
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Failure'
      h3d_keyword_quad_scalar(i)%COMMENT = 'Damage of current failure criterion'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'DAMA/MEMB'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'MAX DAMAGE MEMBRANE'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'NXTF'
      h3d_keyword_quad_scalar(i)%IS_LAYER = 1
      h3d_keyword_quad_scalar(i)%IS_LAYER_ALL = 1
      h3d_keyword_quad_scalar(i)%IS_IPT = 1
      h3d_keyword_quad_scalar(i)%IS_IPT_ALL = 1
      h3d_keyword_quad_scalar(i)%TEXT1  = 'NXT FAILURE FACTOR'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'NXTF/MEMB'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'NXT FAILURE FACTOR MEMBRANE'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'TDEL'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'TIME DELETION ELEMENT'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'SCHLIEREN'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Schlieren'
      h3d_keyword_quad_scalar(i)%COMMENT  = 
     .'Schlieren image (optical method widely used in CFD field). ALE material laws'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'PHI/MEMB'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'phi MEMBRANE'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'DOMAIN'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Domain'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'sigeq'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'equiv stress'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'bulk'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'artificial viscosity'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/dens1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'density-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/dens2'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'density-2'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/ener1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'specific energy-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/ener2'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'specific energy-2'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/temp1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'temperature-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/temp2'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'temperature-2'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/p1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'pressure-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/p2'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'pressure-2'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/epsp1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'plastic strain-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/epsp1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'plastic strain-2'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/ssp1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'sound speed-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/ssp2'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'sound speed-2'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/volum1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volume-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/volum2'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volume-2'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/qvis1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'artificial viscosity-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'law20/qvis2'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'artificial viscosity-2'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'tdet'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'detonation time'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'dt'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'time step'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'ams'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'ams selection'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'enth'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'enthalpy'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'enthm'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'enthalpy per unit mass'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'enthv'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'enthalpy per unit volume'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'eintm'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'internal energy per unit mass'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'eintv'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'internal energy per unit volume'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'eint'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'internal energy'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'off'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'element status'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = '0.0:deleted  >0.&<1.:under failure process 1.0:activated  <0:standby'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'mach'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'mach number'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mach number. only available with ale material law 151'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'color'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'color function'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'color function for multimaterial and multifluid ale laws'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'volu'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volume'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'element volume'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'group'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'group identifier'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'internal.id'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'internal identifier'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'local.id'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'local identifier within the group'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'tillotson'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'region identifier in p,v diagram'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = '1:compressed, 2:expanded cold, 3:transition, 4:hot expansion'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'div(U)'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric dilatation rate'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'div(u)'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain/1'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain 1'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain/2'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain 2'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain/3'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain 3'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain/4'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain 4'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain/5'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain 5'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain/6'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain 6'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain/7'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain 7'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain/8'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain 8'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
      I = I + 1
      H3D_KEYWORD_QUAD_SCALAR(I)%KEY3  = 'vstrain/9'
      H3D_KEYWORD_QUAD_SCALAR(I)%TEXT1  = 'volumetric strain 9'
      H3D_KEYWORD_QUAD_SCALAR(I)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
      i = i + 1
      h3d_keyword_quad_scalar(i)%KEY3  = 'VSTRAIN/10'
      h3d_keyword_quad_scalar(i)%TEXT1  = 'Volumetric Strain 10'
      h3d_keyword_quad_scalar(i)%COMMENT  = 'mu=rho/rho0-1'
c-----------------------------------------------
 
      nkey=i
c-----------------------------------------------
      END