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MSC.visualNastran Desktop

daniel_millan
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MSC.visualNastran Desktop

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    1. MSC.visualNastran Desktop

    3. Desktop Series MSC.visualNastran 4D MSC.visualNastran Motion MSC.visualNastran FEA for CAD (Solid Works, Solid Edge, Mechanical Desktop, Inventor, Pro/Engineer) MSC.visualNastran Studio MSC.visualNastran View Working Model 2D MSC.SuperForge

    4. ????????? ????????? visualNastran Desktop

    5. MSC.visualNastran Desktop visualNastran 4D ?????????? ??????????????? ? ???????-??????????? ??????? ? ?????? ??????? ??????????????? ????????????? visualNastran Motion ?????????? ??????? ??? ?????????????? ? ??????????????? ??????????, ????????? ????????????? ????????? ?????? visualNastran FEA ???????-?????????? ?????? ?? ???? ??????????? ?????????? MSC.Nastran ? ???????? ? ????????????? CAD ??????????

    6. MSC.visualNastran Desktop visualNastran Studio ?????????? ???????, ???????????? ??????? ???????? ?????????????? ? ?????? ???????? ???????????? ? ???????? ??? ??????? ?????????? ???????? ? ?????????? ????????????? visualNastran View ???????????????? CAD & CAE ??????

    7. visualNastran 4D ?????????? ???, ?????????? ? ???????? ???????????? ??? ?????? ?????????????? ??????? ???????? ?????????? ? CAD-????????? ?????? ????????? ACIS, Parasolid, STEP ? IGES

    8. ?????????? visualNastran 4D ? CAD-????????? ?????????? ? ????????????? ?????? ? ?????????? CAD ??????, ????????? Automatic Constraint MappingTM (ACM), ???: Autodesk Mechanical Desktop ? Inventor Pro/Engineer Solid Edge SolidWorks ?????? ????????? ?? ????? CAD ??????? ????? ??????????? ??????? : Parasolid, IGES, ACIS, STL, STEP Key Points: WM Motion is associatively linked to several main CAD packages through Automatic Constraint Mapping (ACM) Other CAD geometry can be imported through standard formats such as SAT, STL and IGES. Sample Script: “Working Model motion is integrated and associatively linked to major CAD packages, such as those listed. The link is handled through MSC WK’s unique Automatic Constrain Mapping (ACM) technology. Using ACM technology, WM Motion maps the assembly constraints that you have applied in your CAD system over to real mechanical joints, such as rigid joints and revolute joints. For CAD geometry from other CAD packages, the software can import geometry from popular standard formats such as STL, SAT and IGES. Key Points: WM Motion is associatively linked to several main CAD packages through Automatic Constraint Mapping (ACM) Other CAD geometry can be imported through standard formats such as SAT, STL and IGES. Sample Script: “Working Model motion is integrated and associatively linked to major CAD packages, such as those listed. The link is handled through MSC WK’s unique Automatic Constrain Mapping (ACM) technology. Using ACM technology, WM Motion maps the assembly constraints that you have applied in your CAD system over to real mechanical joints, such as rigid joints and revolute joints. For CAD geometry from other CAD packages, the software can import geometry from popular standard formats such as STL, SAT and IGES.

    9. New – ????????? Autodesk Inventor! ?????????? ? Inventor R2 ?????????? ???? ?????????: 4D, Motion, Desktop FEA, Studio ? View

    10. visualNastran Desktop FEA ?????????? MSC.Nastran ?????? ? ???????? ? ???????? ???????? ???????, ??????????, ??????????? ??????? ? ???????????? visualNastran Inside TM ??? ?????????? MDT, Solid Edge ? SolidWorks ?????????????? ??????????? ????? ?????? ????????????? ? ?????? ??????? TM Working Model FEA is based on proven MSC/NASTRAN technology. MSC/NASTRAN is used to validate the designs for everything that flies or drives. The latest version of Working Model FEA has support for Parts and Assemblies, provides stress, vibration, buckling and heat transfer simulation, and is totally integrated into the CAD system interface and database. Being integrated, the program is very easy to use and learn, but we have added Wizards and other tools to help guide you through the simulation process.Working Model FEA is based on proven MSC/NASTRAN technology. MSC/NASTRAN is used to validate the designs for everything that flies or drives. The latest version of Working Model FEA has support for Parts and Assemblies, provides stress, vibration, buckling and heat transfer simulation, and is totally integrated into the CAD system interface and database. Being integrated, the program is very easy to use and learn, but we have added Wizards and other tools to help guide you through the simulation process.

    11. visualNastran FEA visualNastran ?????? Mechanical Desktop Working Model FEA also integrated into Autodesk Mechanical Desktop, and has MAI partner status. Working Model FEA also integrated into Autodesk Mechanical Desktop, and has MAI partner status.

    12. visualNastran Motion ??????? ????? ??????????????? ??????? ????????????? ? ?????? ?????????? ? ???????? Key points: Working Model Motion is the world’s leading motion simulation product It is a full-featured motion simulation product, that has won major acceptance by many large companies WM Motion is associatively linked to several main CAD packages through Automatic Constraint Mapping (ACM) Sample script: “Working Model Motion is the first product in the family that I will discuss. Working Model Motion is the standard in Windows-based motion simulation, and has gained major acceptance at small and large companies alike, including large wins at the listed companies. It is a full-featured motion simulation product, that has an easy to use interface and productivity tools such as one-button automatic collision detection and response. Working Model motion is integrated and associatively linked to Autodesk Mechanical Desktop. The link is handled through MSC WK’s unique Automatic Constrain Mapping (ACM) technology. Using ACM technology, WM Motion maps the assembly constraints that you have applied in your CAD system over to real mechanical joints, such as rigid joints and revolute joints.Key points: Working Model Motion is the world’s leading motion simulation product It is a full-featured motion simulation product, that has won major acceptance by many large companies WM Motion is associatively linked to several main CAD packages through Automatic Constraint Mapping (ACM) Sample script: “Working Model Motion is the first product in the family that I will discuss. Working Model Motion is the standard in Windows-based motion simulation, and has gained major acceptance at small and large companies alike, including large wins at the listed companies. It is a full-featured motion simulation product, that has an easy to use interface and productivity tools such as one-button automatic collision detection and response. Working Model motion is integrated and associatively linked to Autodesk Mechanical Desktop. The link is handled through MSC WK’s unique Automatic Constrain Mapping (ACM) technology. Using ACM technology, WM Motion maps the assembly constraints that you have applied in your CAD system over to real mechanical joints, such as rigid joints and revolute joints.

    13. ???????????????? ????? ???????? ?? ???? ????????? ???????? ?????????? ??? This is an example of a photorealistic rendering of a large mechanical assembly. This crane has several hundred parts and the motion is fairly complicated. Note the complex interaction between the pin and the calipers, as well as the swaying action of the pendulum as the hook is winched up. Traditional animation packages would NEVER be able to accurately handle the accurate motion of this device. With Working Model Studio the motion is a snap because it is based on the physics of the device. You then just need to apply some nice effects like light sources, surface renderings and textures.This is an example of a photorealistic rendering of a large mechanical assembly. This crane has several hundred parts and the motion is fairly complicated. Note the complex interaction between the pin and the calipers, as well as the swaying action of the pendulum as the hook is winched up. Traditional animation packages would NEVER be able to accurately handle the accurate motion of this device. With Working Model Studio the motion is a snap because it is based on the physics of the device. You then just need to apply some nice effects like light sources, surface renderings and textures.

    14. ???????????? Output ????? ??????????? MSC.Nastran ?????????? ? ????? ????????? ??????????? ????? ??????? ??????? HTML, AVI, JPEG, TIFF This is an example of a photorealistic rendering of a large mechanical assembly. This crane has several hundred parts and the motion is fairly complicated. Note the complex interaction between the pin and the calipers, as well as the swaying action of the pendulum as the hook is winched up. Traditional animation packages would NEVER be able to accurately handle the accurate motion of this device. With Working Model Studio the motion is a snap because it is based on the physics of the device. You then just need to apply some nice effects like light sources, surface renderings and textures.This is an example of a photorealistic rendering of a large mechanical assembly. This crane has several hundred parts and the motion is fairly complicated. Note the complex interaction between the pin and the calipers, as well as the swaying action of the pendulum as the hook is winched up. Traditional animation packages would NEVER be able to accurately handle the accurate motion of this device. With Working Model Studio the motion is a snap because it is based on the physics of the device. You then just need to apply some nice effects like light sources, surface renderings and textures.

    15. ?????? 1 : Xtreme Street Luge Dr. GoFast - Street Luge

    16. ?????? 1: Xtreme Street Luge ?????? ????????? ??????? ?????????????? ????????????? ???????? ?????? ? ???????????? ?????? ??? ??????????? ???????? ???? ????? ? ??????? ??????

    17. ?????? 2: Aprilia ????????????: Lista Studios, Professor VittoreCossalter, University of Padova ????: ??????????? ????????

    19. ?????? 2: Aprilia ???????????? ??????? ?????????????? ????????

    20. Aprilia Motorcycle - Padua University, Italy ?????? 2: Aprilia

    21. ??????? ????? ??????????? ???????? ??? ??????? Area51 ????????????? ??????????? ?????????? ???? ????? ??????? ??????? ?????????????? ???????? ? ?????????? ?????? ???? ??? ??????? ????????? ???????? ?????? 2: Aprilia - ??????????

    22. ?????? 3: ???????????? ???????? Sierra Pacific Engineering and Products

    23. ?????????? visualNastran Ingersoll-Rand

    24. Scorpion Snowmobile ?????????? visualNastran

    25. AutoBotics ????????? ????? ?????????? visualNastran

    26. ???????? ?????????? visualNastran

    27. ????????? ????? ?????????? visualNastran

    28. ???????? «?????» Roller Coaster Designer ?????????? visualNastran

    29. ???????????? ??? ????????????? Danzco ?????????? visualNastran

    30. ?????? ?????? ?????????? visualNastran

    31. ????-????? Gantner GmbH, Germany ?????????? visualNastran

    32. Subway Door Mechanism Vapor Canada ?????????? visualNastran

    33. Robokoneko - Genobyte - Denver, CO ????????????? ????????? ?????????? visualNastran

    34. ???? ?????????? visualNastran

    35. ????????????? Ingenieuburo Hahn, Germany ?????????? visualNastran

    36. ACEquip ?-??????? ????????? ?????????? visualNastran

    37. ?????????? visualNastran For instance, ComposiTools, a leading manufacturer of modular hand tools, found that the precise results provide by Working Model simulations allowed them to optimize their designs during the modeling stage. This had huge benefits. They knew the amount of stress the socket tube needed to bear before they started the new design. Working Model provided hard engineering data allowing them to iterate and test the design in minutes with a virtual prototype rather than the typical days it would take to build and test actual prototypes. If you work with predefined design criteria, simulation is critical to help you get better designs faster and cheaper.For instance, ComposiTools, a leading manufacturer of modular hand tools, found that the precise results provide by Working Model simulations allowed them to optimize their designs during the modeling stage. This had huge benefits. They knew the amount of stress the socket tube needed to bear before they started the new design. Working Model provided hard engineering data allowing them to iterate and test the design in minutes with a virtual prototype rather than the typical days it would take to build and test actual prototypes. If you work with predefined design criteria, simulation is critical to help you get better designs faster and cheaper.

    38. ????????? ????????? ?????????? visualNastran

    39. Kliklok (UK) ?????????? visualNastran

    40. ????? ?????? - 2001 ????? ?????? ??????? ?? ???? ?????? 4 ??????? ????????? ??????? ?????????? ?? ???????? ????????????? ????????? ????? ????? ?????? CAD ???????: MDT 5.0 – NEW! Inventor R3 – ? ????????????????! SolidWorks 2000 SolidEdge 8.0 Pro/ENGINEER 2000i2 MSC.visualNastran Desktop products will have a new release of all products (4D, Motion, Desktop FEA, Studio and View) in late September 2000. The new release will be the first one to be numbered according to the year. We are following the car-makers lead and going by the next-year in the fall. The new release has 4 major enhancements and dozens of minor user-requested enhancements. Version 2001 supports the latest versions of 5 CAD systems, with associtivity. The support for MDT 5.0 is new in 2001, and Inventor R3 is now associative.MSC.visualNastran Desktop products will have a new release of all products (4D, Motion, Desktop FEA, Studio and View) in late September 2000. The new release will be the first one to be numbered according to the year. We are following the car-makers lead and going by the next-year in the fall. The new release has 4 major enhancements and dozens of minor user-requested enhancements. Version 2001 supports the latest versions of 5 CAD systems, with associtivity. The support for MDT 5.0 is new in 2001, and Inventor R3 is now associative.

    41. ??????? ????????? ?????????? ? MATLAB/Simulink ???????????? ?????????? ? ?????????? ????? ??????? ???????????? ??? ???????? (? 2-4 ???? ???????, ??? 6.2) ?????????????? ?????????? ?????? ??? ??? The new release of MSC.visualNastran Desktop has 4 major enhancements and dozens of user-requested minor enhancements. 2 of the major enhancements are available in visualNastran Motion, 2 in visualNastran Desktop FEA (and all 4 in visualNastran 4D). The 2 new major enhancements in Motion are a MATLAB/Simulink Integration and Proximity and Interference Detection The new major enhancements in FEA are a FAST Iterative FEA solver and automatic FEA assembly “bonding”The new release of MSC.visualNastran Desktop has 4 major enhancements and dozens of user-requested minor enhancements. 2 of the major enhancements are available in visualNastran Motion, 2 in visualNastran Desktop FEA (and all 4 in visualNastran 4D). The 2 new major enhancements in Motion are a MATLAB/Simulink Integration and Proximity and Interference Detection The new major enhancements in FEA are a FAST Iterative FEA solver and automatic FEA assembly “bonding”

    42. MATLAB/Simulink ?????????? MATLAB/Simulink ? Motion/4D ?????? Motion/4D ????????? ? Simulink ??? Block – vNModel visualNastran Motion and visualNastran 4D has an integration with MATLAB and Simulink from The MathWorks, Inc. The integration uses Simulink to design the control systems for dynamic models created in visualNastran. A visualNastran library, inserted as a block into the Simulink model allows feedback between the control system and the dynamic model. visualNastran Motion and visualNastran 4D has an integration with MATLAB and Simulink from The MathWorks, Inc. The integration uses Simulink to design the control systems for dynamic models created in visualNastran. A visualNastran library, inserted as a block into the Simulink model allows feedback between the control system and the dynamic model.

    43. ??????????/?????????? ??????????? ? ???????????? ???????????? ?????????? ?????? ?????????? (0 ??? 1 ??? NO ??? YES) ?????? ?? ????? ?????? ??? ???????????? ???????? ? ???????????? ?? ??????? The user can insert a meter to graphically display the values of the Closest Distance Dimension and detect interference of the bodies during a simulation run. The user can insert a meter to graphically display the values of the Closest Distance Dimension and detect interference of the bodies during a simulation run.

    44. ??????? ???????????? ???????? ??? ???? ??????? ??????? ? ?????? ????????? ????? ?? ????????? ? ??????? 6.2 ? 2-4 ???? ??? ??????? ??????????? ????? ? ????? 4-? ??? ????? ??????? ??????????? FEA simulations are solved up to 4 times faster with the Fast Iterative Solver than with the standard solver. FEA simulations are solved up to 4 times faster with the Fast Iterative Solver than with the standard solver.

    45. ?????????????? ??? ?????? ?????????????? ?????????? ??????? ? ?????? ???????? ???????????? ?????? ????????????? ?????? ??????????? ?????? ?? ??????????????? ???????????? The program automatically creates face-to-face and body-to-body bonds for rigid joints in FEA Assemblies. The program automatically creates face-to-face and body-to-body bonds for rigid joints in FEA Assemblies.

    46. ?????? ????????? ??????? ?????? ?????????, ??????? ???????? ???????????? ????? ?????????? ??????? ? ???? ??????????? ????? ? ????????? ??????? ????? ??????? ACIS ??????????? ???????????? ?????????? ??????? ?????? ???????? ? ?????????????? ????????? ??????? ????????? ACIS 6.2 ? Parasolid 11.1 The new release of MSC.visualNastran Desktop has dozens of user-requested minor enhancementsThe new release of MSC.visualNastran Desktop has dozens of user-requested minor enhancements

    47. ?????????/???? ??????????? ? ??????????? ???? ???????? ????????? : ???????? ???????, ??????? ??? “???? ???????????” ??? ????????? ?????????? ????? ????????????? Place the mouse pointer over any object in the workspace, and its name and description automatically appear. Numeric results from motion and FEA analyses are also shown. Place the mouse pointer over any object in the workspace, and its name and description automatically appear. Numeric results from motion and FEA analyses are also shown.

    48. ????? ? ????????? ??????? ????? Renders black-on-white line art (edges and silhouettes) and surface meshes that may be saved in postscript or encapsulated postscript formats. Renders black-on-white line art (edges and silhouettes) and surface meshes that may be saved in postscript or encapsulated postscript formats.

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