中间值:用弹性门冲破大坝拟试箱由软门组成,一端封开,二端免费接通,与大水交互作用,最初封装在门后自由表层槽中因材料不确定性,将测试弹性材料和超弹性模型(Ogden, Mooney-Rivlin)。//www.cannycloudtech.com/icfd/intermediate-examples/dam5//www.cannycloudtech.com/@@site-logo/LS-DYNA-Examples-Logo480x80.png
中间值:用弹性门冲破大坝
拟试箱由软门组成,一端封开,二端免费接通,与大水交互作用,最初封装在门后自由表层槽中因材料不确定性,将测试弹性材料和超弹性模型(Ogden, Mooney-Rivlin)。
流压边缘
*KEYWORD *TITLE *BOUNDARY_SPC_SET_BIRTH_DEATH *CONTROL_IMPLICIT_DYNAMICS *CONTROL_IMPLICIT_GENERAL *CONTROL_IMPLICIT_SOLUTION *CONTROL_TERMINATION *DATABASE_BINARY_D3PLOT *DATABASE_HISTORY_NODE *DATABASE_NODOUT *DEFINE_CURVE_TITLE *ELEMENT_SHELL *ICFD_BOUNDARY_FREESLIP *ICFD_BOUNDARY_FSI *ICFD_BOUNDARY_NONSLIP *ICFD_BOUNDARY_PRESCRIBED_PRE *ICFD_CONTROL_ADAPT_SIZE *ICFD_CONTROL_FSI *ICFD_CONTROL_OUTPUT *ICFD_CONTROL_TIME *ICFD_DATABASE_TIMESTEP *ICFD_MAT *ICFD_PART *ICFD_PART_VOL *ICFD_SECTION *INCLUDE *LOAD_BODY_Y *MAT_ELASTIC *MAT_MOONEY-RIVLIN_RUBBER *MAT_OGDEN_RUBBER *MESH_INTERF *MESH_SURFACE_ELEMENT *MESH_SURFACE_NODE *MESH_VOLUME *NODE *PARAMETER *PART *SECTION_SHELL *SET_NODE_LIST *END
18luck快乐彩Uniteds-LSSC-LSST-E-Mail-info@de-web:http://www.dyamore.de$ $X------------------------------------------------------------------------------ $X $X 1.运行文件原封不动$X Requires LS-DYNA MPP R9 (or higher) with double precision $X $X------------------------------------------------------------------------------ $# UNITS: (kg/m/s) $X------------------------------------------------------------------------------ $X *KEYWORD *TITLE ICFD Dam break with elastic gate opening $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 $ $ $ PARAMETERS $ $ $ $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 *PARAMETER R T_end 0.4 R dt_plot 5e-3 $ $--- Fluid $ Rrho_fluid 1000 R mu_fluid 0.001 R dt_fluid 5e-4 R grav 9.81 R fsi_bt 1e-3 *INCLUDE mesh.k *INCLUDE struc.k $ $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 $ $ $ ICFD CONTROL CARDS $ $ $ $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 *ICFD_CONTROL_TIME $# ttm dt &T_end &dt_fluid *ICFD_CONTROL_FSI $# owc bt 0 &fsi_bt *ICFD_CONTROL_OUTPUT $# msglv 3 *ICFD_CONTROL_ADAPT_SIZE $# asize 1 $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 $ $ $ ICFD PARTS/ SECTION/ MATERIAL $ $ $ $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 *ICFD_SECTION $# sid 1 *ICFD_MAT $# mid flg ro vis 1 1&rho_fluid &mu_fluid *ICFD_MAT $# mid flg ro vis 2 0 *ICFD_PART $# pid secid mid 1 1 1 *ICFD_PART $# pid secid mid 2 1 1 *ICFD_PART $# pid secid mid 3 1 1 *ICFD_PART $# pid secid mid 4 1 1 *ICFD_PART $# pid secid mid 5 1 1 *ICFD_PART $# pid secid mid 6 1 2 *ICFD_PART $# pid secid mid 7 1 2 *ICFD_PART $# pid secid mid 8 1 2 *ICFD_PART $# pid secid mid 9 1 2 *ICFD_PART $# pid secid mid 10 1 2 *ICFD_PART $# pid secid mid 11 1 2 *ICFD_PART $# pid secid mid 12 1 2 *ICFD_PART $# pid secid mid 13 1 2 *ICFD_PART $# pid secid mid 14 1 2 *ICFD_PART_VOL $# pid secid mid 15 1 1 $# spid1 spid2 spid3 spid4 spid5 spid6 spid7 spid8 1 2 4 5 6 *ICFD_PART_VOL $# pid secid mid 16 1 2 $# spid1 spid2 spid3 spid4 spid5 spid6 spid7 spid8 2 3 6 7 8 9 10 11 $# spid9 spid10 spid11 spid12 12 13 14 $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 $ $ $ ICFD BOUNDARY/INITIAL CONDITIONS $ $ $ $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 *ICFD_BOUNDARY_FREESLIP $# pid 1 *ICFD_BOUNDARY_NONSLIP $# pid 3 *ICFD_BOUNDARY_NONSLIP $# pid 4 *ICFD_BOUNDARY_FREESLIP $# pid 5 *ICFD_BOUNDARY_FREESLIP $# pid 7 *ICFD_BOUNDARY_FREESLIP $# pid 8 *ICFD_BOUNDARY_PRESCRIBED_PRE $# pid lcid sf death birth 9 2 *ICFD_BOUNDARY_FREESLIP $# pid 10 *ICFD_BOUNDARY_NONSLIP $# pid 11 *ICFD_BOUNDARY_FREESLIP $# pid 12 *ICFD_BOUNDARY_FREESLIP $# pid 13 *ICFD_BOUNDARY_FREESLIP $# pid 14 *ICFD_BOUNDARY_FSI $# pid 3 *ICFD_BOUNDARY_FSI $# pid 4 *ICFD_BOUNDARY_FSI $# pid 11 *LOAD_BODY_Y $# lcid sf 1 1 *DEFINE_CURVE_TITLE Gravity force $# lcid sidr sfa sfo offa offo dattyp 1 &grav $# a1 o1 0.0 1.0 10000.0 1.0 *DEFINE_CURVE_TITLE Pressure outlet $# lcid sidr sfa sfo offa offo dattyp 2 $# a1 o1 0.0 0.0 10000.0 0.0 $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 $ $ $ ICFD MESH KEYWORDS $ $ $ $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 *MESH_VOLUME $# volid 30 $# pid1 pid2 pid3 pid4 pid5 pid6 pid7 pid8 1 3 4 5 7 8 9 10 $# pid9 pid10 pid11 pid12 11 12 13 14 *MESH_INTERF $# pid 30 $# spid1 2 *MESH_INTERF $# pid 30 $# spid1 6 $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 $ $ $ DATABASE (OUTPUT) $ $ $ $---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8 *ICFD_DATABASE_TIMESTEP $# outlv 1 *DATABASE_BINARY_D3PLOT &dt_plot *END
拟试箱由软门组成,一端封开,二端免费接通,与大水交互作用,最初封装在门后自由表层槽中因材料不确定性,将测试弹性材料和超弹性模型(Ogden, Mooney-Rivlin)。
参考文献
[1]C安托西市加拉提和SSibilla,Sphe模拟流体结构交互作用,计算机和结构编解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解解85号11-14页879-890,2007年MIT第四次计算流体和固态机械会议
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[3QYang SPH模拟流度结构交互应用Hovercraft博士论文,弗吉尼亚理工学院和州立大学,2011年