hm_read_fail_wierzbicki.F File Reference

#include "implicit_f.inc"
#include "units_c.inc"

Go to the source code of this file.

Functions/Subroutines
subroutine	hm_read_fail_wierzbicki (fail, mat_id, fail_id, irupt, lsubmodel, unitab)

Function/Subroutine Documentation

hm_read_fail_wierzbicki()

subroutine hm_read_fail_wierzbicki	(	type (fail_param_), intent(inout)	fail,
		integer, intent(in)	mat_id,
		integer, intent(in)	fail_id,
		integer, intent(in)	irupt,
		type (submodel_data), dimension(*), intent(in)	lsubmodel,
		type (unit_type_), intent(in)	unitab )

Definition at line 35 of file hm_read_fail_wierzbicki.F.

C-----------------------------------------------
c    ROUTINE DESCRIPTION :
c    Read Wierzbicki-Xue failure model parameters
C-----------------------------------------------
C   M o d u l e s
C-----------------------------------------------
      USE fail_param_mod
      USE unitab_mod
      USE submodel_mod
      USE hm_option_read_mod 
C-----------------------------------------------
C   I m p l i c i t   T y p e s
C-----------------------------------------------
#include      "implicit_f.inc"
C-----------------------------------------------
C   C o m m o n   B l o c k s
C-----------------------------------------------
#include      "units_c.inc"
C-----------------------------------------------
C   D u m m y   A r g u m e n t s
C-----------------------------------------------
      INTEGER             ,INTENT(IN) :: FAIL_ID       ! failure model ID
      INTEGER             ,INTENT(IN) :: MAT_ID        ! material law ID
      INTEGER             ,INTENT(IN) :: IRUPT         ! failure model number
      TYPE (UNIT_TYPE_)   ,INTENT(IN) :: UNITAB        ! table of input units
      TYPE (SUBMODEL_DATA),INTENT(IN) :: LSUBMODEL(*)  ! submodel table 
      TYPE (FAIL_PARAM_)  ,INTENT(INOUT) :: FAIL       ! failure model data structure
C-----------------------------------------------
C   L o c a l   V a r i a b l e s
C-----------------------------------------------
      INTEGER IFAIL_SH, IFAIL_SO,IMOY
      my_real c1,c2,c3,c4,cm,cn,pthkf
      LOGICAL :: IS_AVAILABLE,IS_ENCRYPTED
C-----------------------------------------------
C   S o u r c e   L i n e s
C-----------------------------------------------
      is_encrypted = .false.
      is_available = .false.
 
      CALL hm_option_is_encrypted(is_encrypted)
C--------------------------------------------------
C EXTRACT DATAS (REAL VALUES)
C--------------------------------------------------
      CALL hm_get_floatv  ('C1_WIERZBICKI',c1       ,is_available,lsubmodel,unitab)
      CALL hm_get_floatv  ('C2_WIERZBICKI',c2       ,is_available,lsubmodel,unitab)
      CALL hm_get_floatv  ('C3_WIERZBICKI',c3       ,is_available,lsubmodel,unitab)
      CALL hm_get_floatv  ('C4_WIERZBICKI',c4       ,is_available,lsubmodel,unitab)
      CALL hm_get_floatv  ('m'            ,cm       ,is_available,lsubmodel,unitab)
 
      CALL hm_get_floatv  ('n_WIERZBICKI' ,cn       ,is_available,lsubmodel,unitab)
      CALL hm_get_intv    ('Ifail_sh'     ,ifail_sh ,is_available,lsubmodel) 
      CALL hm_get_intv    ('Ifail_so'     ,ifail_so ,is_available,lsubmodel) 
      CALL hm_get_intv    ('Imoy'         ,imoy     ,is_available,lsubmodel) 
C--------------------------------------------------
      IF (ifail_sh==0) ifail_sh=1
      IF (ifail_so==0) ifail_so=1
c
      IF (ifail_sh == 1) THEN
        pthkf = em06
      ELSEIF (ifail_sh == 2) THEN
        pthkf = one
      ENDIF
c
      fail%KEYWORD = 'WIERZBICKI' 
      fail%IRUPT   = irupt 
      fail%FAIL_ID = fail_id 
      fail%NUPARAM = 9
      fail%NIPARAM = 0
      fail%NUVAR   = 2
      fail%NFUNC   = 0
      fail%NTABLE  = 0
      fail%NMOD    = 0
      fail%PTHK    = pthkf
c            
      ALLOCATE (fail%UPARAM(fail%NUPARAM))
      ALLOCATE (fail%IPARAM(fail%NIPARAM))
      ALLOCATE (fail%IFUNC (fail%NFUNC))
      ALLOCATE (fail%TABLE (fail%NTABLE))
c
      fail%UPARAM(1) = c1
      fail%UPARAM(2) = c2
      fail%UPARAM(3) = c3
      fail%UPARAM(4) = c4
      fail%UPARAM(5) = cm
      fail%UPARAM(6) = cn
      fail%UPARAM(7) = ifail_sh
      fail%UPARAM(8) = ifail_so
      fail%UPARAM(9) = imoy 
c--------------------------------------------------
      IF(is_encrypted)THEN
       WRITE(iout,'(5X,A,//)')'CONFIDENTIAL DATA'
      ELSE       
       WRITE(iout, 1000)c1,c2,c3,c4,cm,cn,imoy     
       IF(ifail_sh==1)THEN
        WRITE(iout, 1100)
       ELSEIF(ifail_sh==2)THEN
        WRITE(iout, 1200)
       ENDIF    
       IF(ifail_so==1)THEN
        WRITE(iout, 2100)
       ELSEIF(ifail_so==2)THEN
         WRITE(iout, 2200)
       ENDIF
      ENDIF                   
c--------------------------------------------------
 1000 FORMAT(
     & 5x,40h  xue-wierzbicki failure model          ,/,
     & 5x,40h  -----------------------------         ,/,
     & 5x,' PARAMETER (C1).. . . . . . . =',e12.4/
     & 5x,' PARAMETER (C2). . . . . . . .=',e12.4/
     & 5x,' PARAMETER (C3). . . . . . . .=',e12.4/
     & 5x,' PARAMETER (C4). . . . . . . .=',e12.4/
     & 5x,' PARAMETER (M ).   . . . . . .=',e12.4/
     & 5x,' HARDENING EXPONENT.   . . . .=',e12.4/
     & 5x,' FLAG FOR 3D FAILURE MODEL (BRICK) =',i10//)
 1100 FORMAT(
     & 5x,'   SHELL ELEMENT DELETION ') 
 2100 FORMAT(
     & 5x,'   SOLID ELEMENT  DELETION ') 
 1200 FORMAT(
     & 5x,'    SHELL TENSOR STRESS OF LAYER WILL BE VANISHED ')    
 2200 FORMAT(
     & 5x,'    DEVIATORIC STRESS WILL BE VANISHED ')    
c-----------
      RETURN