- CivilFEM Documentation
- CivilFEM Commands Reference
- A commands
- B commands
- ~BLCBDEL
- ~BLCBEND
- ~BLCBLD
- ~BLCBPA
- ~BLCBST
- ~BLF2CMB
- ~BLFDEL
- ~BLFDF
- ~BLFLST
- ~BLPL
- ~BLPLPL
- ~BLSA
- ~BLSB
- ~BLSEND
- ~BLSOLVE
- ~BLSST
- ~BLSTF
- ~BLVA
- ~BLVB
- ~BLVC
- ~BLVD
- ~BLVDEL
- ~BLVEND
- ~BLVGEN
- ~BLVLIB
- ~BLVLST
- ~BLVMDF
- ~BLVR
- ~BLVST
- ~BLWRITE
- ~BMSHDEL
- ~BMSHGEN
- ~BMSHLST
- ~BMSHOFF
- ~BMSHPRO
- ~BRAC
- ~BRADDEL
- ~BRADDPL
- ~BRANG
- ~BRBC
- ~BRCS
- ~BRCSOPT
- ~BRDEF
- ~BRDELEL
- ~BRDELPL
- ~BRGEN
- ~BRHL
- ~BRHLDEL
- ~BRHLMDF
- ~BRINIP
- ~BRIQR
- ~BRMVDL
- ~BRPD
- ~BRPLST
- ~BRSBOX
- ~BRSCN
- ~BRSDEL
- ~BRSDIV
- ~BRSGEN
- ~BRSKTCH
- ~BRSLST
- ~BRSMDF
- ~BRSSLAB
- ~BRSTOCS
- C commands
- ~CALSERC
- ~CBDMS
- ~CFABOUT
- ~CFACTIV
- ~CFCLEAR
- ~CFCONFG
- ~CFEXIT
- ~CFFILE2
- ~CFFL3D
- ~CFGET
- ~CFHBRD
- ~CFHBWR
- ~CFLSSLV
- ~CFLSWRT
- ~CFMP
- ~CFMPDEL
- ~CFMPGEN
- ~CFMPLIB
- ~CFMPLST
- ~CFRAPPN
- ~CFRESUM
- ~CFSAVE
- ~CFSET
- ~CFVGET
- ~CFVLEN
- ~CFVMASK
- ~CHKCON
- ~CHKPRS
- ~CHKSTL
- ~CLPRD
- ~CMB
- ~CMBCLR
- ~CMBDAT
- ~CMBDEF
- ~CMBDEL
- ~CMBINQ
- ~CMBLST
- ~CMBMOD
- ~CMBPRM
- ~CMBSTAT
- ~CODESEL
- ~COMBINE
- ~COST
- ~COSTLST
- ~CPDEF
- ~CPSTDEF
- ~CRLTCOM
- ~CRLTDEF
- ~CRLTDEL
- ~CRLTLST
- ~CRLTUSE
- ~CSDEL
- ~CSECDMS
- ~CSGEN
- ~CSIQR
- ~CSLIB
- ~CSLST
- ~CSMRG
- D commands
- E commands
- F commands
- G commands
- H commands
- I commands
- L commands
- M commands
- P commands
- ~P_SPEC
- ~PCCBDEL
- ~PCCBEND
- ~PCCBPA
- ~PCCBST
- ~PCCTMDF
- ~PCDEL
- ~PCEPDEL
- ~PCEPDEF
- ~PCEPGEN
- ~PCEPMDF
- ~PCLOSS
- ~PCPL
- ~PCPLPL
- ~PCPPDEL
- ~PCPPDEF
- ~PCPPGEN
- ~PCPPMDF
- ~PCTNDEL
- ~PCTNDEF
- ~PCTNGEN
- ~PCTNLST
- ~PCTNMDF
- ~PCTYPE
- ~PL2DINT
- ~PL2DPRS
- ~PLCSBS
- ~PLCSCON
- ~PLCSEC3
- ~PLCSSTR
- ~PLFILE
- ~PLHBMAT
- ~PLHCLPF
- ~PLLSCON
- ~PLLSFOR
- ~PLLSPRS
- ~PLLSSTL
- ~PLLSSTR
- ~PLSEEP
- ~PLSHCLP
- ~PLSHCON
- ~PLSHFOR
- ~PLSHPRS
- ~PLSHSTR
- ~PLTEND
- ~PR2DINT
- ~PR2DPRS
- ~PRCON
- ~PRFOR
- ~PRHCLPF
- ~PRPRS
- ~PRSHCLP
- ~PRSTL
- ~PRSTR
- ~PUSHDEF
- ~PUSHLST
- ~PUSHMOD
- ~PUSHSLV
- R commands
- S commands
- ~SBBMDEF
- ~SBCANNT
- ~SBCLEAR
- ~SBLST
- ~SBPAR
- ~/SBSHOW
- ~SBSMDEF
- ~SBSMMDF
- ~SD2SH
- ~SEC2DIN
- ~SEC2DOU
- ~SECMDF
- ~SEEPAGE
- ~SEEPMOD
- ~SHLDEL
- ~SHLGEN
- ~SHLIPSH
- ~SHLLST
- ~SHLMDF
- ~SHLRNF
- ~SHLSHR
- ~SHLSTL
- ~SLDDEL
- ~SLDLST
- ~SLDMDF
- ~SLDSEC
- ~SLPCIR
- ~SLPCIRK
- ~SLPIN
- ~SLPINK
- ~SLPLST
- ~SLPOPT
- ~SLPPOL
- ~SLPPWP
- ~SLPSOL
- ~SLPTAN
- ~SLPTANK
- ~SSECDMS
- ~SSECLIB
- ~SSECPLT
- ~STSTCFT
- ~STSTDEF
- T commands
- U commands
- V commands
- W commands
- 6.1 CivilFEM Combinations
- 6.2 Results Combination in ANSYS and in CivilFEM
- 6.3 Basic Terminology
- 6.4 Types of Combination Rules
- 6.5 Data Groups
- 6.6 Envelopes
- 6.7 Concomitance at Load and Model Level
- 6.8 Comment about Beam188 and Beam189 Elements
- 6.9 Start State Combinations with Prestressing Tendons
- 6.10 Calculation of All Possible Load Cases
- 6.11 Automatic Load Combinations for Standards
- 11–A.1 Introduction
- 11–A.2 Predesign of Rectangular Sections
- 11–A.3 3D Interaction Diagram
- 11–A.4 Axial Load and Biaxial Bending Checking
- 11–A.5 Axial Load and Biaxial Bending Design (Reinforcement Factor)
- 11–A.6 Axial Load and Biaxial Bending Design (Reinforcement Amount)
- 11–A.7 Calculation Codes
- 11–A.8 Previous Considerations to Shear and Torsion Calculation
- 11–A.9 Shear and Torsion according to Eurocode 2 (ENV 1992–1–1:1991)
- 11–A.10 Shear and Torsion according to Eurocode 2 (EN 1992–1–1:2004/AC:2008) and ITER Design Code
- 11–A.11 Shear and Torsion according to ACI 318–05
- 11–A.12 Shear and Torsion according to ACI 318–14
- 11–A.13 Shear and Torsion according to ACI 318–19
- 11–B.1 Introduction
- 11–B.2 Shear and Torsion according to EHE–98
- 11–B.3 Shear and Torsion according to EHE–08
- 11–B.4 Shear and Torsion according to BS8110
- 11–B.5 Shear and Torsion according to AS3600
- 11–B.6 Shear and Torsion according to GB50010–2002
- 11–B.7 Shear and Torsion according to GB50010–2010
- 11–B.8 Shear and Torsion according to NBR6118
- 11–B.9 Shear and Torsion according to AASHTO Standard Specifications for Highway Bridges
- 11–B.10 Shear and Torsion according to Code of Rules 52–101–03 and SP 63.13330.2012
- 11–B.11 Shear and Torsion according to IS 456
- 11–C.1 Introduction
- 11–C.2 Shear and Torsion according to ACI 349–01 y ACI 349–06
- 11–C.3 Shear and Torsion according to ACI 349–13
- 11–C.4 Cracking Analysis
- 11–C.5 Cracking Checking according Eurocode 2 (ENV 1992–1–1:1991)
- 11–C.6 Cracking Checking according Eurocode 2 (EN 1992–1–1:2004/AC:2008) and ITER Design Code
- 11–C.7 Cracking Checking according to ACI 318–05 and ACI 318–14
- 11–C.8 Cracking Checking according to EHE (EHE–98 and EHE–08)
- 13.1 General Concepts
- 13.2 Design for Bending Moment and Torsion – Wood–Armer Method
- 13.3 Design under Bending Moment and In Plane Loading – CEB–FIP Method
- 13.4 Design according to the Orthogonal Directions Method
- 13.5 Design according to the Most Unfavorable Direction Method
- 13.6 Check and Design for Out–of–Plane Shear Loadings according to Eurocode 2 (ENV 1992–1–1:1991)
- 13.7 Check and Design for Out–of–Plane Shear Loadings according to Eurocode 2 (EN 1992–1–1:2004/AC:2008) and ITER Design Code
- 13.8 Check and Design for Out–of–Plane Shear Loadings according to EHE–98
- 13.9 Check and Design for Out–of–Plane Shear Loadings according to EHE–08
- 13.10 Check and Design for Out–of–Plane Shear Loadings according to Code of Rules 52–101–03 and SP 63.13330.2012
- 13.11 Check and Design for Out–of–Plane Shear Loadings according to ACI 318–05
- 13.12 Check and Design for Out–of–Plane Shear Loadings according to ACI 318–14
- 13.13 Check and Design for Out–of–Plane Shear Loadings according to ACI 318–19
- 13.14 Check and Design for Out–of–Plane Shear Loadings according to ACI 349–01 and ACI 349–06 (Reinforced Concrete)
- 13.15 Check and Design for Out–of–Plane Shear Loadings according to ACI 349–13 (Reinforced Concrete)
- 13.16 Check and Design for In–plane Shear Loadings according to ACI 349–01and ACI 349–06
- 13.17 Check and Design for In–plane Shear Loadings according to ACI 349–13
- 13.18 Check and Design according to ACI 359–04 (Reinforced Concrete)
- 13.19 Check and Design according to ACI 359–04 (Prestressed Concrete)
- 13.20 Cracking Checking according Eurocode 2 (EN 1992–1–1:2004/AC:2008)
- 13.21 Cracking Checking according to ACI 318–05, ACI 318–14 and ACI 318–19
- 13.22 Cracking Checking according to Code of Rules 52–101–03 and SP 63.13330.2012
- 14.1 Introduction
- 14.2 Spectrum Calculation according to Eurocode 8 (ENV–1998–1–1:1994)
- 14.3 Spectrum Calculation according to Eurocode 8 (EN–1998–1:2004)
- 14.4 Spectrum Calculation according to NCSE–94
- 14.5 Spectrum Calculation according to NCSE–02
- 14.6 Spectrum Calculation according to GB50011
- 14.7 Spectrum Calculation according to GB50011–2010
- 14.8 Spectrum Calculation according to IT3274
- 14.9 Spectrum Calculation according to AASHTO LRFD Bridge Design Specifications
- 14.10 Spectrum Calculation according to EAK 2000
- 14.11 Spectrum Calculation according to CALTRANS Seismic Design Criteria
- 14.12 Spectrum Calculation according to the Uniform Building Code (1997)
- 14.13 Spectrum Calculation according to PS 92
- 14.14 Spectrum Calculation according to the Indian Standard 1893
- 14.15 Modal Analysis of the Structure
- 14.16 Modes Combination
- 14.17 Push Over Analysis
- 14.18 Seismic Safety Margin
- 17–A.1 Introduction
- 17–A.2 Definition of Layered Soils
- 17–A.3 Ballast Module
- 17–A.4 Retaining Walls 1 ½ D
- 17–A.5 Slope Stability
- 17–A.6 Mohr–Coulomb Plasticity Model
- 17–A.7 Cam–Clay Plasticity Model
- 17–A.8 Hoek and Brown's Failure Criteria
- 17–A.9 Seepage
- 17–A.10 Earth Pressures
- 17–A.11 Terrain Initial Stress
No matches found
- /SBSHOW
- ACTMAT
- ACTTIME
- ALTER
- BLCBDEL
- BLCBEND
- BLCBLD
- BLCBPA
- BLCBST
- BLF2CMB
- BLFDEL
- BLFDF
- BLFLST
- BLPL
- BLPLPL
- BLSA
- BLSB
- BLSEND
- BLSOLVE
- BLSST
- BLSTF
- BLVA
- BLVB
- BLVC
- BLVD
- BLVDEL
- BLVEND
- BLVGEN
- BLVLIB
- BLVLST
- BLV;DF
- BLVR
- BLVST
- BLWRITE
- BMSHDEL
- BMSHGEN
- BMSHLST
- BMSHOFF
- BMSHPRO
- BRAC
- BRADDEL
- BRADDPL
- BRANG
- BRBC
- BRCS
- BRCSOPT
- BRDEF
- BRDELEL
- BRDELPL
- BRGEN
- BRHL
- BRHLDEL
- BRHLMDF
- BRINIP
- BRIQR
- BRMVDL
- BRPD
- BRPLST
- BRSCN
- BRSDEL
- BRSDIV
- BRSGEN
- BRSKTCH
- BRSBOX
- BRSLST
- BRSMDF
- BRSSLAB
- BRSTOCS
- CALSERC
- CBDMS
- CFABOUT
- CFACTIV
- CFCLEAR
- CFCONFG
- CFEXIT
- CFFILE2
- CFFL3D
- CFGET
- CFHBRD
- CFHBWR
- CFLSSLV
- CFLSWRT
- CFMP
- CFMPDEL
- CFMPGEN
- CFMPLIB
- CFMPLST
- CFRAPPN
- CFRESUM
- CFSAVE
- CFSET
- CFVGET
- CFVLEN
- CFVMASK
- CHKCON
- CHKPRS
- CHKSTL
- CLPRD
- CMB
- CMBCLR
- CMBDAT
- CMBDEF
- CMBDEL
- CMBINQ
- CMBLST
- CMBMOD
- CMBPRM
- CMBSTAT
- CODESEL
- COMBINE
- COST
- COSTLST
- CPDEF
- CPSTDEF
- CRLTCOM
- CRLTDEF
- CRLTDEL
- CRLTLST
- CRLTUSE
- CSDEL
- CSECDMS
- CSGEN
- CSIQR
- CSLIB
- CSLST
- CSMRG
- DAHEAD
- DASEEP
- DEFSPEC
- DIMCON
- DIMPRS
- DIMPRS
- DIMSTL
- DLHEAD
- DLSEEP
- EFFPRES
- EFSAPPL
- EFSCALC
- EFSLST
- ENVDEF
- ENVDEL
- ENVELOP
- ETHSF
- ETHSFE
- FL3DRES
- FMREAD
- FMWRITE
- FRMBS
- FRMCPY
- FRMCR
- FRMDEF
- FRMDEL
- FRMGEN
- FRMGT
- FRMLDS
- FRMLST
- FRMMDL
- FRMVHS
- FRTRCK
- GENSPEC
- GENTEN
- GRCSBS
- GRCSCON
- GRCSEC3
- GRCSSTR
- GRSLPD
- GRSLPR
- GTPD
- HBSOLVE
- HCLPFCN
- HCLPFST
- IDHCLPF
- ILCLOSE
- ILOPEN
- ISOBAR
- L_MOD
- L_SPEC
- LINCMB
- LINLST
- LPRNSOL
- LPSOLVE
- LSTFMT
- MEMBDEL
- MEMBGEN
- MEMBLST
- MEMBPRO
- MOD_SF
- MODLSOL
- P_SPEC
- PCCBDEL
- PCCBEND
- PCCBPA
- PCCBST
- PCCTMDF
- PCDEL
- PCEPDEF
- PCEPDEL
- PCEPGEN
- PCEPMDF
- PCLOSS
- PCPL
- PCPLPL
- PCPPDEF
- PCPPDEL
- PCPPGEN
- PCPPMDF
- PCTNDEF
- PCTNDEL
- PCTNGEN
- PCTNLST
- PCTNMDF
- PCTYPE
- PL2DINT
- PL2DPRS
- PLCSBS
- PLCSCON
- PLCSEC3
- PLCSSTR
- PLFILE
- PLHBMAT
- PLHCLPF
- PLLSCON
- PLLSFOR
- PLLSPRS
- PLLSSTL
- PLLSSTR
- PLSEEP
- PLSHCLP
- PLSHCON
- PLSHFOR
- PLSHPRS
- PLSHSTR
- PLSHPRS
- PLTEND
- PR2DINT
- PR2DPRS
- PRCON
- PRFOR
- PRHCLPF
- PRPRS
- PRSHCLP
- PRSTL
- PRSTR
- PUSHDEF
- PUSHLST
- PUSHMOD
- PUSHSLV
- RCVWRT
- REDEF
- REDEL
- RETROFT
- RNFDEF
- RNFMDF
- SBBMDEF
- SBCANNT
- SBCLEAR
- SBLST
- SBPAR
- SBSMDEF
- SBSMMDF
- SD2SH
- SEC2DIN
- SEC2DOU
- SECMDF
- SEEPAGE
- SEEPMOD
- SHLDEL
- SHLGEN
- SHLIPSH
- SHLLST
- SHLMDF
- SHLRNF
- SHLSHR
- SHLSTL
- SLDDEL
- SLDLST
- SLDMDF
- SLDSEC
- SLPCIR
- SLPCIRK
- SLPIN
- SLPINK
- SLPLST
- SLPOPT
- SLPPOL
- SLPPWP
- SLPSOL
- SLPTAN
- SLPTANK
- SSECDMS
- SSECLIB
- SSECPLT
- STSTCFT
- STSTDEF
- TENLD
- TERDEF
- TERDEL
- TERGEN
- TERLST
- TETHEX
- TIS
- TN2DIN
- TNADDEL
- TNADDPL
- TNADV
- TNGEN
- TNINIP
- TNSKTCH
- TPLST
- TPHASE
- TPOST
- TPSET
- TREFINE
- TRGDEF
- TRGDEL
- TRGLST
- TRGUPT
- TSOLVE
- TSTEP
- TTRUSS
- UNITS
- UPDATE
- VARTH
- VERIF
- VWHTML
- VWTXT
- VWXLS
- WALLANC
- WALLGEN
- WALLINI
- WALLJNT
- WALLMOD
- WALLSOL
- WALLSTP
- WATTAB
- WEIGHT
- WTSLP
- WTSOLVE
No matches found
~SBSMMDF
~SBSMMDF, Lab, VALUE1, VALUE2, VALUE3
Modifies the support beam created from the solid sections
PREP7: PRESTRESSED CONCRETE: Support beam
Lab
Type of modification
|
Lab |
Description |
|
INSERT |
Insert the solid section VALUE1 number at the right position (+) of cut number VALUE2. Solid section VALUE3 will be inserted at the left position (-) of the cut. The following cuts, defined previously to the inserted cut, will have their numbering increased by 1. |
|
DEL |
Deletes the cut containing the solid section number VALUE1. If VALUE1= ALL, it deletes all the cuts of the support beam. For deleting a cut, it should not have any associated point for tendon definition (the associated points should be previously deleted). |
|
DELCUT |
Deletes the cut number VALUE1. If VALUE1= ALL, it deletes all the cuts of the support beam. For deleting a cut, it should not have any associated point for tendon definition (the associated points should be previously deleted). |
|
LEFT |
Changes the left section (-) of cut VALUE2, for the solid section number VALUE1. |
|
RIGHT |
Changes the right section (-) of cut VALUE2, for the solid section number VALUE1. |
Notes
- After the prestressing actions have been applied using the SOLVE or the ~CFLSWRT commands, the number of tendons or cuts cannot be changed. Therefore this command will be ignored.
- The support beam will be captured on the active coordinate system. The vertical direction must be oriented towards the Y axis. It is recommended to place the X axis along the main direction of the tendons, in order to avoid geometrical singularities (a tendon must not have any segment parallel to the Z axis).
- If the support beam has already been started to capture, the coordinate system used will always be the one used for the first cut.
- The left and right sections of the same cut must be defined at the same location (capture coordinate system at the same location and with the same orientation).
Menu Path
Main Menu > Civil Preprocessor > Prestress Concrete Prep > Solid Sec model > Insert cuts
Main Menu > Civil Preprocessor > Prestress Concrete Prep > Solid Sec model > Modify left section
Main Menu > Civil Preprocessor > Prestress Concrete Prep > Solid Sec model > Modify right section
Main Menu > Civil Preprocessor > Prestress Concrete Prep > Solid Sec model > Remove section
Main Menu > Civil Preprocessor > Prestress Concrete Prep > Solid Sec model > Delete cuts
Main Menu > Civil Preprocessor > Prestress Concrete Prep > Solid Sec model > Delete All
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