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中文说明:
用matlab编写的用于转子动力学分析的有限元程序,可实现转子临界转速和振型分析、稳态响应和瞬态响应分析等功能。
English Description:
The finite element program for rotor dynamics analysis written by Matlab can realize the functions of rotor critical speed and vibration mode analysis, steady-state response and transient response analysis
readme.txt
rotfe.jpg
Thumbs.db
RotFe_ib\demo_rotfe.asv
RotFe_ib\demo_rotfe.m
RotFe_ib\draw_plane.m
RotFe_ib\make_asym_frf.m
RotFe_ib\new_rotfe.fig
RotFe_ib\new_rotfe.m
RotFe_ib\readme.txt
RotFe_ib\rotfeini.m
RotFe_ib\tempmat.mat
RotFe_ib\temporary1.m
RotFe_ib\tutorial.m
RotFe_ib\tutorial.asv
RotFe_ib\rotfeini.asv
RotFe_ib\rotorstest.m
RotFe_ib\tutorial1.mdl
RotFe_ib\rotorstest1.m
RotFe_ib\rotorstest2.asv
RotFe_ib\tutorial.mtx
RotFe_ib\rotorstest2.mdl
RotFe_ib\tutorial.fig
RotFe_ib\test.m
RotFe_ib\test.fig
RotFe_ib\slprj\sl_proj.tmw
RotFe_ib\slprj\grt\untitled\tmwinternal\minfo.mat
RotFe_ib\work\ASYM21.M
RotFe_ib\work\asym2a.m
RotFe_ib\work\asym31.m
RotFe_ib\work\asym41.m
RotFe_ib\work\cc.txt
RotFe_ib\work\cc.txt.frq
RotFe_ib\work\copy_fig.m
RotFe_ib\work\disc.m
RotFe_ib\work\disc_gui.m
RotFe_ib\work\disc_gui.mat
RotFe_ib\work\fig_copy.m
RotFe_ib\work\rot2shaft.m
RotFe_ib\work\ROTEIG1.M
RotFe_ib\work\ROTREV.M
RotFe_ib\work\ROTXY.M
RotFe_ib\work\shaft.m
RotFe_ib\work\shaft2rot.m
RotFe_ib\work\shaft_gui.m
RotFe_ib\work\shaft_gui.mat
RotFe_ib\work\sym21.m
RotFe_ib\work\sym31.m
RotFe_ib\work\sym31b.m
RotFe_ib\work\tempmat.mat
RotFe_ib\work\temporary1.m
RotFe_ib\work\thelix.m
RotFe_ib\work\THELIX_A.M
RotFe_ib\work\TST_REV.M
RotFe_ib\work\tt.m
RotFe_ib\work\ws2struct.m
RotFe_ib\try\contents.m
RotFe_ib\try\DETTIMO.M
RotFe_ib\try\DETTIMO1.M
RotFe_ib\try\drawrot3dexp.m
RotFe_ib\try\drawrot3dmode.m
RotFe_ib\try\FREE.M
RotFe_ib\try\FREE2.M
RotFe_ib\try\fs.m
RotFe_ib\try\FS1.M
RotFe_ib\try\get_view.m
RotFe_ib\try\Simplyx.m
RotFe_ib\try\simrotor1.mdl
RotFe_ib\try\simrotor3a.mdl
RotFe_ib\try\sim_tutorial.mdl
RotFe_ib\try\sim_tutorial2.mdl
RotFe_ib\try\sim_tutorial3.mdl
RotFe_ib\try\statetest.mdl
RotFe_ib\try\tanimate.m
RotFe_ib\try\temporary1.m
RotFe_ib\try\TESTAN2.M
RotFe_ib\try\TESTANA.M
RotFe_ib\try\TESTANA1.M
RotFe_ib\try\TESTANAx.m
RotFe_ib\try\TESTANAx2.m
RotFe_ib\try\tst_fe.m
RotFe_ib\try\tst_frf1.m
RotFe_ib\try\tst_reduce1.m
RotFe_ib\try\tst_reduce2.m
RotFe_ib\try\tst_rotdraw.m
RotFe_ib\try\tst_sim1.m
RotFe_ib\try\tst_sim2.m
RotFe_ib\try\tst_sim3.m
RotFe_ib\torsion\drawrot3dexp.m
RotFe_ib\torsion\drawrot3dmode.m
RotFe_ib\torsion\get_view.m
RotFe_ib\torsion\readme.txt
RotFe_ib\torsion\tanimate.m
RotFe_ib\torsion\temporary1.m
RotFe_ib\torsion\tst_rotany.m
RotFe_ib\torsion\tst_rotdraw.m
RotFe_ib\sim\rotsfuncw.m
RotFe_ib\sim\simrotor3a.mdl
RotFe_ib\sim\sim_tutorial.mdl
RotFe_ib\sim\tst_sim1.m
RotFe_ib\sim\tst_sim2.m
RotFe_ib\sim\tst_sim3.m
RotFe_ib\sim\sim_tutorial2.mdl
RotFe_ib\sim\simple2s_2s.mdl
RotFe_ib\sim\simrotor1.mdl
RotFe_ib\sim\sim_tutorial3.mdl
RotFe_ib\new\addpdamp.m
RotFe_ib\new\animate2.m
RotFe_ib\new\campbell.m
RotFe_ib\new\contents.m
RotFe_ib\new\disprot.m
RotFe_ib\new\disprotinfo.m
RotFe_ib\new\disprotinfo3d.m
RotFe_ib\new\drawrot.m
RotFe_ib\new\drawrot3d.m
RotFe_ib\new\drawrot3d_sec.m
RotFe_ib\new\drawrot3d_spring.m
RotFe_ib\new\drawrot3d_spring2.m
RotFe_ib\new\eigl.m
RotFe_ib\new\MKEIG.M
RotFe_ib\new\modeplot.1m.m
RotFe_ib\new\modeplot.m
RotFe_ib\new\modeplot1.m
RotFe_ib\new\modeplot2.m
RotFe_ib\new\modeplot2f.m
RotFe_ib\new\nameext.m
RotFe_ib\new\reduce.m
RotFe_ib\new\reduceg.m
RotFe_ib\new\reduces.m
RotFe_ib\new\rot2rect.m
RotFe_ib\new\rot2rect1.m
RotFe_ib\new\rot2ss.m
RotFe_ib\new\rot2templ.m
RotFe_ib\new\rotdamp.m
RotFe_ib\new\roteig.m
RotFe_ib\new\roteqn1.m
RotFe_ib\new\rotfe.m
RotFe_ib\new\rotfer.m
RotFe_ib\new\rotfrf.m
RotFe_ib\new\rotgyro.m
RotFe_ib\new\rotkst.m
RotFe_ib\new\rotmass.m
RotFe_ib\new\rotmass25.m
RotFe_ib\new\rotmicg.m
RotFe_ib\new\rotmodescompute.m
RotFe_ib\new\rotmshape.m
RotFe_ib\new\rotmshape3.m
RotFe_ib\new\rotmshape3a.m
RotFe_ib\new\rotstiff.m
RotFe_ib\new\rotstiff25.m
RotFe_ib\new\rottors.m
RotFe_ib\new\rotunbal.m
RotFe_ib\new\savemode.m
RotFe_ib\new\shaffet.m
RotFe_ib\new\shaffet2.m
RotFe_ib\new\shearc.m
RotFe_ib\new\sim1.mdl
RotFe_ib\new\stiff_conical.m
RotFe_ib\new\templatenew.m
RotFe_ib\new\temporary1.m
RotFe_ib\new\tmodeplot.m
RotFe_ib\new\whirldir.m
RotFe_ib\models\asym51.m
RotFe_ib\models\manydisks.m
RotFe_ib\models\rz2.m
RotFe_ib\models\rz3.m
RotFe_ib\models\rz4.m
RotFe_ib\models\shaft1e.m
RotFe_ib\models\simple1s.m
RotFe_ib\models\simple2s.m
RotFe_ib\models\simple4.m
RotFe_ib\models\threedis.m
RotFe_ib\models\tmecha.m
RotFe_ib\models\tmecha1m.m
RotFe_ib\models\tmecha_asym.m
RotFe_ib\models\tmtestrot.m
RotFe_ib\models\tutorial.m
RotFe_ib\models\unbal1.m
RotFe_ib\models\unbal2.m
RotFe_ib\models\uspiz.m
RotFe_ib\models\Temp_File.tmp
RotFe_ib\doc\Convergence of the FE model.doc
RotFe_ib\doc\coordinates.doc
RotFe_ib\doc\New features and modifications in RotFE 2.doc
RotFe_ib\doc\(Important1)rotexample.doc
RotFe_ib\doc\(Important1)Model order reduction in ROTFE 2.doc
RotFe_ib\doc\(Important1)ROTFE20a.doc
RotFe_ib\doc\(Important2)Rotor Dynamics software in Matlab.doc
RotFe_ib\doc\软件使用说明.txt
RotFe_ib\slprj\grt\untitled\tmwinternal
RotFe_ib\slprj\grt\untitled
RotFe_ib\slprj\grt
RotFe_ib\slprj
RotFe_ib\work
RotFe_ib\try
RotFe_ib\torsion
RotFe_ib\sim
RotFe_ib\new
RotFe_ib\models
RotFe_ib\doc
RotFe_ib
Finite element modeling of rotating machines and rotors