Coupled welding with solids
This example shows the process of creating a weldingseam by means of welding a square profile onto a plate. In this case the whole geometry is modelled with solid elements. The heat source of the welding device is generated with *BOUNDARY_THERMAL_WELD_TRAJECTORY. The constitutive model *MAT_THERMAL_CWM is used for the welding seam.
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Coupled welding with solids
This example shows the process of creating a weldingseam by means of welding a square profile onto a plate. In this case the whole geometry is modelled with solid elements. The heat source of the welding device is generated with *BOUNDARY_THERMAL_WELD_TRAJECTORY. The constitutive model *MAT_THERMAL_CWM is used for the welding seam.
*BOUNDARY_CONVECTION_SET *BOUNDARY_RADIATION_SET *BOUNDARY_SPC_NODE *BOUNDARY_THERMAL_WELD_TRAJECTORY *CONTACT_AUTOMATIC_SURFACE_TO_SURFACE_MORTAR_THERMAL_ID *CONTACT_TIED_SURFACE_TO_SURFACE_THERMAL_ID *CONTROL_ACCURACY *CONTROL_IMPLICIT_AUTO *CONTROL_IMPLICIT_GENERAL *CONTROL_IMPLICIT_SOLUTION *CONTROL_SOLUTION *CONTROL_TERMINATION *CONTROL_THERMAL_SOLVER *CONTROL_THERMAL_TIMESTEP *DATABASE_BINARY_D3PLOT *DATABASE_GLSTAT *DATABASE_MATSUM *DATABASE_RCFORC *DATABASE_SPCFORC *DEFINE_CURVE *DEFINE_CURVE_TITLE *ELEMENT_SOLID *END *INCLUDE *INITIAL_TEMPERATURE_SET *KEYWORD *LOAD_BODY_Z *MAT_CWM_TITLE *MAT_ELASTIC_PLASTIC_THERMAL_TITLE *MAT_THERMAL_CWM_TITLE *MAT_THERMAL_ISOTROPIC *NODE *PART *SECTION_SOLID *SET_NODE_LIST_TITLE *SET_SEGMENT_GENERAL *SET_SEGMENT_TITLE *TITLE
*KEYWORD $ $=============================CONTROL DEFINITIONS ============================== $ *TITLE welding steel parts - solids *CONTROL_SOLUTION $ soln 2 *CONTROL_TERMINATION $ endtim 99 *CONTROL_IMPLICIT_GENERAL $ imflag dt0 imform nsbs igs cnstn form zero_v 1 0.2 2 1 2 0 0 1 *CONTROL_IMPLICIT_SOLUTION $ nsolv 12 *CONTROL_IMPLICIT_AUTO $ iauto iteopt itewin dtmin dtmax 2 11 5 0.1 -901 *CONTROL_ACCURACY $ osu inn pidosu iacc 1 *CONTROL_THERMAL_SOLVER $ atype ptype solver 1 1 11 $ msglvl maxitr 0 50 *CONTROL_THERMAL_TIMESTEP $ ts tip its tmin tmax dtemp tscp lcts 1 1.00 0.2 -902 -901 5000 0.50 *DEFINE_CURVE_TITLE minimal thermal step size $ lcid sidr sfa sfo offa offo dattyp 902 0 1.0 1.0 0.000 0.000 0 $ a1 o1 0.0 0.1 7.0 0.1 10.0 2.0 100.0 5.0 *DEFINE_CURVE_TITLE maximal thermal and structural time step size $ lcid sidr sfa sfo offa offo dattyp 901 0 1.0 1.0 0.000 0.000 0 $ a1 o1 0.0 0.25 7.0 0.25 10.0 4.0 100.0 10.0 $ $================================ OUTPUTDATA =================================== $ *DATABASE_BINARY_D3PLOT $ dt 0.01 *DATABASE_GLSTAT $ dt 0.01 *DATABASE_MATSUM $ dt 0.01 *DATABASE_RCFORC $ dt 0.01 *DATABASE_SPCFORC $ dt 0.01 $ $============================== PART DEFINITIONS =============================== $ *PART $ title profile $ pid secid mid eosid hgid grav adpopt tmid 1 1 1 1 *PART $ title plate $ pid secid mid eosid hgid grav adpopt tmid 2 1 1 1 *PART $ title weldingseam 3 1 2 2 $ $============================= SECTION PROPERTIES ============================== $ *SECTION_SOLID $ secid elform 1 -2 $ $================== MECHANICAL AND THERMAL MATERIAL PROPERTIES ================= $ *MAT_ELASTIC_PLASTIC_THERMAL_TITLE steel $ mid ro 1 7.85e-9 $ t1 t2 t3 t4 273.0 493.0 1273.0 10000.0 $ e1 e2 e3 e4 210000 210000 75000 1000 $ pr1 pr2 pr3 pr4 0.285 0.285 0.3 0.45 $ alpha1 alpha2 alpha3 alpha4 12e-6 12e-6 14e-6 0.0 $ sigy1 sigy2 sigy3 sigy4 435.0 100.0 20 1 $ etan1 etan2 etan3 etan4 1000.0 1000.0 250.0 1 *MAT_THERMAL_ISOTROPIC $ tmid tro tgrlc tgmult tlat hlat 1 7.85e-9 $ hc tc 4.60e8 40.0 *MAT_CWM_TITLE weld metal $ mid ro lcem lcpr lcsy lchr lcat beta 2 7.85e-09 101 102 103 104 105 1.0 $ tastart taebd tlstart tlend eghost pghost aghost 1300 1400 1200 1400 10000.0 0.49 0.0 $ t2phase t1phase 800 500 *DEFINE_CURVE_TITLE lecm temp dependent youngs modulus $ lcid sidr sfa sfo offa offo dattyp 101 0 1.0 1.0 0.000 0.000 0 $ a1 o1 273.0 210000 493.0 210000 10000.0 1000 *DEFINE_CURVE_TITLE lcpr temp dependent poissons ratio $ lcid sidr sfa sfo offa offo dattyp 102 0 1.0 1.0 0.000 0.000 0 $ a1 o1 273.0 0.30 473.0 0.30 10000.0 0.49 *DEFINE_CURVE_TITLE lcsy temp dependent yield stress $ lcid sidr sfa sfo offa offo dattyp 103 0 1.0 1.0 0.000 0.000 0 $ a1 o1 273.0 240 473.0 240 10000.0 5 *DEFINE_CURVE_TITLE lchr temp dependent hardening modulus $ lcid sidr sfa sfo offa offo dattyp 104 0 1.0 1.0 0.000 0.000 0 $ a1 o1 273.0 700 473.0 700 10000.0 5 *DEFINE_CURVE_TITLE lcat temp dependent thermal expansion coefficient $ lcid sidr sfa sfo offa offo dattyp 105 0 1.0 1.0e-06 0.000 0.000 0 $ a1 o1 273.0 17.00 473.0 17.00 1000.0 22.00 10000.0 0.00 *MAT_THERMAL_CWM_TITLE weld metal 1.4301 $ tmid tro tgrlc tgmult hdeath tdeath 2 7.85e-9 0 0.0 511e6 0.001 $ lchc lctc tlstart tlend tistart tiend hghost tghost 106 107 -1001 -1000 -2.0 -1.0 511e6 0.001 *DEFINE_CURVE_TITLE lchc temp dependent specific heat $ lcid sidr sfa sfo offa offo dattyp 106 0 1.0 1e6 0.000 0.000 0 $ a1 o1 273.0 500 473.0 550 10000 750 *DEFINE_CURVE_TITLE lctc temp dependent thermal conductivity $ lcid sidr sfa sfo offa offo dattyp 107 0 1.0 1.0 0.000 0.000 0 $ a1 o1 273.0 15.0 473.0 20.0 10000.0 30.0 $ $=======================NODE/ELEMENT/SET/SEGMENT DEFINTIONS ==================== $ *INCLUDE 05_welding_solid_parts.k $ $ *SET_NODE_LIST_TITLE nodes_weldingseam_path sid 1 $ *SET_NODE_LIST_TITLE nodes_plate_edge_side1 sid 2 $ *SET_NODE_LIST_TITLE nodes_plate_edge_side2 sid 3 $ $ *SET_SEGMENT_TITLE segments_weldingseam_path sid 1 $ *SET_SEGMENT_TITLE segments_rad_and_conv sid 2 $ *SET_SEGMENT_TITLE segments_weldingseam_contact sid 3 $ *SET_SEGMENT_GENERAL $ sid 4 $ option e1 e2 part 1 2 $ $=========================== CONTACT DEFINITIONS =============================== $ *CONTACT_TIED_SURFACE_TO_SURFACE_THERMAL_ID 1,contact_tied $ ssid msid sstyp mstyp sboxid mboxid spr mpr 3 4 0 0 $ fs fd dc vc vdc penchk bt dt $ sfs sfm sst mst sfst sfmt fsf vsf -0.1 -0.1 $ k frad ho lmin lmax ftoslv bc_flg algo 0.026 0.0 50.0 0.5 2.0 0.5 1 0 $ card a $ card b $ igap 2 *CONTACT_AUTOMATIC_SURFACE_TO_SURFACE_MORTAR_THERMAL_ID 2,contact_automatic $ ssid msid sstyp mstyp sboxid mboxid spr mpr 1 2 3 3 $ fs fd dc vc vdc penchk bt dt 0.3 $ sfs sfm sst mst sfst sfmt fsf vsf $ k frad ho lmin lmax ftoslv bc_flg algo 0.026 0.0 1.0 0.5 2 0.5 1 0 $ $====================== MECHANICAL BOUNDARY CONDITIONS ========================= $ *BOUNDARY_SPC_SET $ nid/nsid cid dofx dofy dofz dofrx dofry dofrz 2 1 1 1 *BOUNDARY_SPC_SET $ nid/nsid cid dofx dofy dofz dofrx dofry dofrz 3 1 1 1 *LOAD_BODY_Z $ lcid sf lciddr xc yc zc cid 201 9.81e3 *DEFINE_CURVE $ lcid 201 $ time,temp 0.0,1.0 101.0,1.0 $ $================= THERMAL BOUNDARY AND INITIAL CONDITIONS ===================== $ *INITIAL_TEMPERATURE_SET $ nsid temp loc 0 293.15 *BOUNDARY_THERMAL_WELD_TRAJECTORY $ pid ptyp nsid1 spd1 nsid2 spd2 ncyc relvel 3 1 1 -301 -1 -301 5 $ iform lcid q lcrot lcmov lclat disc 2 302 5.0e6 $ p1 p2 p3 p4 p5 p6 p7 p8 3.0 2.5 2.0 8.0 0.5 1.0 *DEFINE_CURVE $ lcid sidr sfa sfo offa offo dattyp 301 0 1.0 1.0 0.000 0.000 0 $ time,temp 0.0,0.0 0.1,6.0 6.9,6.0 7.0,0.0 101.0,0.0 *DEFINE_CURVE $ lcid sidr sfa sfo offa offo dattyp 302 0 1.0 1.0 0.000 0.000 0 $ time,temp 0.0,0.0 0.1,1.0 6.9,1.0 7.0,0.0 101.0,0.0 *BOUNDARY_CONVECTION_SET $ ssid 2 $ hlcid hmult tlcid tmult loc 0 0.01 0 293.15 *BOUNDARY_RADIATION_SET $ ssid type 2 1 $ flcid fmult tlcid tmult loc 03.4022E-11 0 293.15 $ *END