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SM_Contact_Forces_Lib

于 2021-02-19 发布
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说明:  matlab软件中接触力仿真程序,可以直接运行(contact forces simulation)

文件列表:

SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Cam_Follower\Cam_Follower.slx, 55214 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Cam_Follower\Cam_Parameters.m, 1711 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Cam_Follower\Help\Cam_Follower_Contact.html, 868 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Cam_Follower\Help\Cam_Follower_Contact_Help_IMAGE.png, 110823 , 2014-07-31
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Cam_Follower\UI\Cam_Follower_UI.fig, 7157 , 2014-07-21
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Cam_Follower\UI\Cam_Follower_UI.m, 11377 , 2017-06-21
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Conveyor_Belts\Belts_01_Two_Belts.slx, 44699 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\CAD\Export\Geneva_Drive_imported.slx, 25597 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\CAD\Export\Geneva_Drive_XML.xml, 6943 , 2014-07-26
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\CAD\Export\Geneva_Drive_XML_DataFile.m, 4811 , 2016-02-19
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\CAD\Geometry\Base_Default_sldprt.STL, 1534681 , 2014-07-26
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\CAD\Geometry\Drive_Wheel_Default_sldprt.STL, 3755483 , 2014-07-26
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\CAD\Geometry\Geneva_Default_sldprt.STL, 4473367 , 2014-07-26
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Geneva_Drive.slx, 58694 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Geneva_Drive_plot1drivepos.m, 1053 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Help\Geneva_Drive_Contact_DPin_GSlot.html, 879 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Help\Geneva_Drive_Contact_Dpin_GSlot_Help_IMAGE.png, 161936 , 2014-07-26
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Help\Geneva_Drive_Contact_Forces.html, 875 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Help\Geneva_Drive_Contact_Forces_Help_IMAGE.png, 164490 , 2014-07-26
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Help\Geneva_Drive_Contact_Shld_Garc.html, 878 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Help\Geneva_Drive_Contact_Shld_Garc_Help_IMAGE.png, 153613 , 2014-07-26
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Help\Geneva_Drive_Contact_Shld_Gtip.html, 878 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Help\Geneva_Drive_Contact_Shld_Gtip_Help_IMAGE.png, 164627 , 2014-07-26
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Images\Contact_Diagram_DPin_to_GSlot_IMAGE.jpg, 29187 , 2014-07-24
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Images\Contact_Diagram_Gtip_to_Shld_IMAGE.jpg, 27087 , 2014-07-24
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Geneva_Drive\Images\Contact_Diagram_Shld_to_GArc_IMAGE.jpg, 28586 , 2014-07-24
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_01_Ball_Infinite_Plane.slx, 36553 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_01_Ball_Infinite_Plane_plot1ballpos.m, 889 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_01_Ball_Infinite_Plane_plot2contactfrc.m, 940 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_02_Disk_Finite_Plane_Fixed.slx, 39463 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_02_Disk_Finite_Plane_Fixed_plot1ballpos.m, 921 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_02_Disk_Finite_Plane_Fixed_plot2contactfrc.m, 815 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_03_Disk_Finite_Plane_Spin.slx, 38547 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_03_Disk_Finite_Plane_Spin_plot1ballpos.m, 840 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_03_Disk_Finite_Plane_Spin_plot2contactfrc.m, 808 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_04_Disks_in_Box.slx, 39309 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_04_Disks_in_Box_plot1diskpos.m, 2198 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_05_Disk_in_Ring.slx, 35961 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_05_Disk_in_Ring_plot1diskpos.m, 1305 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_06_Catapult.slx, 41333 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_06_Catapult_plot1diskpos.m, 1171 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_07_Ball_Finite_Plane_Float.slx, 38836 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_07_Ball_Finite_Plane_Float_plot1diskpos.m, 2132 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Collision\Collision_08_Compare_Forces.slx, 39706 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_01_Box_on_Ramp_Constraint.slx, 32693 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_01_Box_on_Ramp_Constraint_plot1boxvel.m, 1280 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_02_Box_on_Ramp.slx, 45272 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_02_Box_on_Ramp_plot1boxvel.m, 1184 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_03_Double_Pendulum_Constraint.slx, 34345 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_03_Double_Pendulum_Constraint_plot1jointq.m, 1318 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_04_Disk_Rolling_on_Ramp.slx, 40043 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_04_Disk_Rolling_on_Ramp_plot1diskpos.m, 2080 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_05_Beam_on_Wheel.slx, 38548 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_06_Disk_on_Disk.slx, 41116 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_07_Floating_Disks.slx, 39122 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_08_Disks_and_Ring.slx, 42175 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_09_Ring_on_Disk_Float.slx, 39721 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Simple\Friction\Friction_10_Ball_on_Wheel.slx, 47207 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Spinning_Boxes\Spinning_Boxes.slx, 42116 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\2D\Spinning_Boxes\Spinning_Boxes_plot1boxpos.m, 861 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Gripper_2Belts\Gripper_2Belts.slx, 65055 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Gripper_2Belts\Gripper_2Belts_plot1boxposition.m, 1419 , 2017-01-14
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Robot_2_Whl\Robot_2_Whl.slx, 43574 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Robot_2_Whl\Robot_2_Whl_plot1pos.m, 2098 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_01_Ball_Plane_Fixed.slx, 37093 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_01_Ball_Plane_Fixed_plot1ballpos.m, 1200 , 2017-07-15
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_01_Ball_Plane_Fixed_plot2contactfrc.m, 1130 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_02_Ball_Plane_Spin.slx, 39986 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_02_Ball_Plane_Spin_plot1ballpos.m, 1209 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_02_Ball_Plane_Spin_plot2contactfrc.m, 1141 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_03_Balls_in_Box.slx, 37067 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_03_Balls_in_Box_plot1ballpos.m, 1630 , 2017-07-15
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_04_Ball_in_Tube_Fixed.slx, 39840 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_04_Ball_in_Tube_Fixed_plot1ballpos.m, 1891 , 2017-07-07
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_05_Ball_Peg_Board.slx, 40299 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_05_Ball_Peg_Board_plot1ballpos.m, 1684 , 2017-07-15
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_06_Ball_in_Ball.slx, 40172 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_06_Ball_in_Ball_plot1ballpos.m, 1832 , 2017-07-15
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_06_Ball_in_Ball_plot2contactfrc.m, 1100 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_07_Balls_and_Sliding_Tube.slx, 38984 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_07_Balls_and_Sliding_Tube_plot1ballpos.m, 2738 , 2017-07-11
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_08_Ball_in_Spinning_Cone.slx, 34752 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Collision\Coll3D_08_Ball_in_Spinning_Cone_plot1ballpos.m, 2164 , 2017-07-15
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_01_Box_on_Table.slx, 44880 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_01_Box_on_Table_plot1ballpos.m, 922 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_01_Box_on_Table_plot2boxspd.m, 986 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_02_Ball_on_Table.slx, 43281 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_02_Ball_on_Table_plot1ballpos.m, 1070 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_03_Board_on_Balls.slx, 42826 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_03_Board_on_Balls_plot1pos.m, 1816 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_04_Ball_on_Ball.slx, 40775 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_04_Ball_on_Ball_plot1ang.m, 1529 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_05_Tube_on_Balls.slx, 48094 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_05_Tube_on_Balls_plot1ang.m, 1780 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_06_Ball_on_Balls.slx, 48200 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_06_Ball_on_Balls_plot1ang.m, 1774 , 2017-01-16
SM_Contact_Forces_Lib_R16b_v3p7\Examples\3D\Simple\Friction\Frict3D_07_Ball_in_Ball.slx, 37159 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Libraries\Contact_Forces_Lib.slx, 645230 , 2017-07-17
SM_Contact_Forces_Lib_R16b_v3p7\Libraries\Help\Box_to_Belt_Contact.m, 599 , 2017-07-16
SM_Contact_Forces_Lib_R16b_v3p7\Libraries\Help\Box_to_Belt_DBox_IMAGE.png, 18420 , 2015-07-06

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  • Cyyzz
    大家都认为,c语言之所以强大,以及其自由性,很大部分体现在其灵活的指针运用上。因此,说指针是c语言的灵魂,一点都不为过。同时,这种说法也让很多人产生误解,似乎只有C语言的指针才能算指针。basic不支持指针,在此不论。其实,pascal语言本身也是支持指针的。从最初的pascal发展至今的object pascal,可以说在指针运用上,丝毫不会逊色于c语言的指针。(Everyone thinks, c language were strong, as well as its freedom, it is reflected in its most flexible use of the pointer. Therefore, said pointer is c language of the soul, can not be overemphasized. At the same time, this argument also let a lot of people misunderstand, it seems that only the C language can be considered a pointer to pointer. basic does not support pointers in this matter. In fact, pascal language itself is also supported by the pointer. Pascal far from the initial development of the object pascal, can be said that the use of the pointer, and in no way inferior to the c language pointer.)
    2013-09-12 16:48:51下载
    积分:1
  • 这是个用C SHARP 写的C/S结构的网络聊天室,支持多客户端连接,适合初学者学习...
    这是个用C SHARP 写的C/S结构的网络聊天室,支持多客户端连接,适合初学者学习-This is written in C SHARP C/S structure of the Internet chat rooms, support multi-client, suitable for beginners to learn
    2023-03-25 01:40:04下载
    积分:1
  • pracsim-2
    通信基本仿真2适合初学者学习的代码,包括了调制,分析等等:使用IIR filter的经典模拟滤波器(巴特沃斯Butterworth,切比雪夫Chebyshev),Bartlett周期图谱,加窗Bartlett周期图谱,基带波形仿真,IIR的贝塞尔滤波器Bessel Filter,二进制对称信道Binary Symmetric Channel仿真,比特序列,Remez滤波,BPSK复合基带信号仿真,载波生成器,椭圆滤波器Elliptical Filter,FFT,FSK调制及解调,高斯噪声Gaussian仿真,直方图,理想AM,线性PLL,BP混淆器,理想MPSK,正交振幅调变(QAM,Quadrature Amplitude Modulation),正交相移键控(QPSK),Rayleigh Noise瑞利噪声,Yule-Walker Psd功率谱密度函数。(matlab simulate2)
    2009-12-26 23:10:29下载
    积分:1
  • Lesson16线同步与异步套接字
    Lesson16线程同步与异步套接字编程-Lesson16 thread synchronization with asynchronous socket programming
    2022-03-02 18:25:43下载
    积分:1
  • Bonmin-1.6.0
    BONMIN: Basic Open-source Nonlinear Mixed Integer programming(model types: LP, RMIP, MIP, DNLP, NLP, RMINLP, MINLP, QCP, RMIQCP, MIQCP)
    2013-05-02 15:32:27下载
    积分:1
  • the algorithm should be solved QOP issue, I am not very proficient, and hope we...
    该算法应于求解QOP问题,本人对此不是很精通,希望有机会和大家一起讨论这个问题。-the algorithm should be solved QOP issue, I am not very proficient, and hope we have the opportunity to discuss this issue.
    2023-08-09 03:45:03下载
    积分:1
  • SOLNHLP
    There is the number 3 file. Then, will be more
    2019-01-11 03:13:40下载
    积分:1
  • VBdevelopmentexample
    Visual Basic系统开发实例精粹 人民邮电出版社(The essence of the system development example Visual Basic Posts & Telecom Press)
    2010-10-08 00:38:33下载
    积分:1
  • gujaitiqu
    说明:  这个程序能够帮我们从滞回曲线提取骨架曲线,并且可以绘画出来。(This program can help us extract skeleton curve from hysteretic curve and draw it.)
    2020-04-29 20:36:38下载
    积分:1
  • SRC
    说明:  最大限度地平 FIR 逼近 (拉格朗日插值法) 拉格朗日插值是一种时域方法,导致基于多项式的筛选器的一个特殊情况。用 M 次多项式近似表示输出信号。最简单的情况 (M = 1) 对应于线性插值。让我们设计和分析将通过各种馏分拆分单元延迟的几种线性分数时滞滤波器:(Maximally-Flat FIR Approximation (Lagrange Interpolation) Lagrange interpolation is a time-domain approach that leads to a special case of polynomial-based filters. The output signal is approximated with a polynomial of degree M. The simplest case (M=1) corresponds to linear interpolation. Let's design and analyze several linear fractional delay filters that will split the unit delay by various fractions:)
    2017-08-20 11:31:08下载
    积分:1
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