Posts Tagged ‘Simulation’
C-3.1: Simulation of the Production of Metal/ Plastic Hybrids
Whereas metal and plastic traditionally compete with each other, the advantages of both materials are combined by the hybrid technology. Although, nowadays, various technologies are capable of producing plastics/metal composites, they all have disadvantages in commen due to serval manufactoring steps and limitations in productivity. As part of the Cluster of Excellence a hybrid multi-component process shell be developed by the combination of metal pressure and plastic injection molding.
Stress Engineering – PET Bottle Stretch-Blow Molding Simulation
Preform design, blow-molding process conditions, bottle wall thickness distribution and ultimately bottle performance (such as, topload capacity and squeeze/dispensing characteristics) can be optimized using this blow molding simulation coupled with bottle structural analysis. The goal is to minimize the bottle weight and maximize the bottle performance for sustainability. For more information, please visit us at www.stress.com. Contacts us at youtube@stress.com with any questions.
Static Stress, Linear Dynamics, and Heat Transfer Overview – Autodesk Simulation
Want more information after viewing this video? Be sure to visit www.autodesk.com and www.SIMSquad.com. Autodesk® Simulation software, part of the Autodesk® solution for Digital Prototyping, provides a range of mechanical simulation tools to help designers, engineers, and analysts make decisions earlier in the engineering design process. With these tools, you can predict the real‐world performance of your product, helping to save the time and money required to build multiple physical prototypes. Autodesk® Simulation Mechanical and Autodesk® Simulation Multiphysics software includes tools for static stress and linear dynamic simulations—helping you study stress, strain, displacement, shear, and axial forces resulting from structural loading—including forces, moments, pressures, gravity, and displacements. Autodesk® Simulation software also helps you determine a part’s natural frequencies and mode shapes in order to avoid frequencies that are disruptive or harmful to your design. In addition, it helps you avoid structural failure by determining the amount of load that would cause a structure to buckle—letting you review the predicted buckling shape so you can then add supports and stiffeners to your design. Autodesk® Simulation software includes support for steady-state and transient heat transfer simulations—helping to predict changes in a product’s temperature profile in order to reveal potential failure. Study linear and nonlinear thermal effects by considering …
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Injection Stretch Blow Moulding Simulation
This is an ABAQUS simulation of the stretch blow moulding of a drinks container. The animation details the stretching of a Polyethylene terephthalate [PET] pre-heated preform using a stretch-rod, followed by the high pressure air inflation process to form the receptacle in a mould. The legend in the upper left hand corner of the video is a contour of the material thickness distribution [STH] in the wall of the container. For further information please contact Dr. Gary Menary PhD at the School of Mechanical and Aerospace Engineering at Queen’s University Belfast.
SimpoePro – The only plastic injection simulation software fully embedded into Pro/ENGINEER & Creo
SimpoePro is the only plastic injection simulation software fully embedded into Pro/ENGINEER & Creo. For more details on SimpoePro, feel free to visit: www.simpoe.com
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What’s New – Autodesk Simulation 2012
Want more information after viewing this video? Be sure to visit www.autodesk.com and www.SIMSquad.com. Fly-In Text New User Interface The new user interface for Autodesk® Simulation 2012 software provides an intuitive and task-oriented workflow, aimed at improving overall productivity. A central and easy-to-navigate toolbar organizes common tasks in a manner that follows the typical simulation workflow. Functionality is presented based on the task at hand, which improves accessibility of commands and reduces the time taken digging through menu systems. Tooltips and toolclips help new users get up to speed quickly on what each command does and how they should be used. Fly-In Text: Geometry Modification With Autodesk® Simulation 2012, you can use Autodesk® Inventor® Fusion to modify or simplify geometry more quickly and easily, helping to optimize designs as fast as possible. Make iterative design changes without redefining materials, loads, constraints, or other simulation data by working with the native CAD format, exchanging geometry and related data directly with Autodesk® Inventor® Fusion. By simply clicking and dragging, you can easily modify and update CAD geometry — helping to consider a greater number of design variations and further optimize designs based on the behavior predicted with the Autodesk® Simulation® software. Fly-In Text: Autodesk Inventor Parameter Modification Dimensions associated to parts within Autodesk® Inventor® can be reviewed and manipulated …
top view of the stack mold process
Video Rating: 5 / 5
Mechanical Event Simulation Overview – Autodesk Simulation
Want more information after viewing this video? Be sure to visit www.autodesk.com and www.SIMSquad.com. Autodesk® Simulation software, part of the Autodesk® solution for Digital Prototyping, provides a range of mechanical simulation tools to help designers, engineers, and analysts make decisions earlier in the engineering design process. With these tools, you can predict the real‐world performance of your product, helping to save the time and money required to build multiple physical prototypes. Autodesk® Simulation software lets you start with mainstream tools and then expand your toolkit to include more advanced simulation such as mechanical event simulation—without the need to learn new workflows. With Autodesk® Simulation Mechanical and Autodesk® Simulation Multiphysics software, you can use multi-body dynamics with support for large-scale motion, large deformation, and large strain with body-to-body contact to enhance design decisions. Analyze models subject to dynamic loads and inertial effects involved in motion, drop tests, and impact and then study stress, strain, displacement, shear, and axial forces due to motion. Mechanical event simulation with linear and nonlinear materials automatically calculates loads and time-stepping based on physical data, helping you avoid costly, inaccurate assumptions. In fact, one of the main advantages of mechanical event simulation is the need to make fewer assumptions. With this type of simulation, there is no need for …
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ViMill GTF403080 Fidia Milling Machines Simulation Corvette Presentation
Gantry Type high speed milling machines Modularity The new upper Gantry GTF line is characterized by great robustness. Thanks to its modular structure, and taking advantage from a combination of components conveniently selected according to weight, stiffness and cost requirements, the GTF range becomes an ideal solution to fulfill all customer’s demand. Performances The harmonious sizing of its structures in accordance with the thermo-symmetry concept, perfectly matches with the extremely dynamic linear axes. In this way, speed and power are enhanced to grant the best performance. The vertical axis integrates the versatile FIDIA continuous bi-rotary head capable of high speed removal rate for 3+2- and 5-interpolated axis machining. The FIDIA integrated technology system, including both drives, numerical control and optical scales, offers the most complete and performing equipment, granting the customer with both quality and reliability of one-single-source supplier. Applications GT machines offer a full range of models with modular work envelope. The main applications are for the machining of large plastic injection moulds, automotive stamping dies as well as structural components for the Aerospace Industry. Tailored equipping systems The GTF machine is so versatile that can be easily adapted to both the machining of different kind of materials, and the environmental and logistical conditions of workshop. Customized chip conveyors, dust removal and filtering systems, in …
Simpoe Plastic Injection Simulation
แบบจำลอง ฝายึดสำหรับเปิด-ปิดประตูรถยนต์ (Door Handle Bezel) เพื่อที่จะศึกษา ทิศทางการไหลของน้ำพลาสติกที่ไหลภายในแม่พิมพ์ (Multi of Cavity) พร้อมปรากฎการณ์การไหลชนของน้ำพลาสติก (Weldline) และตำแหน่งของการไล่อากาศออกจากแม่พิมพ์ (Air trap) เพื่อหลบหลีกปัญหาที่อาจจะขึ้นได้จากการฉีดพลาสติก อยากเช่น ทางด้านความแข็งแรง ,การเกิดฟองอากาศ ภายในชิ้นงาน เป็นต้น
SimpoeWorks Cavity filling simulation
www.simpoe.com SimpoeWorks is the Plastic Injection Simulation Software embedded into SolidWorks ! SimpoeWorks simulates the filling, packing, cooling and warpage of plastic parts. Competitively priced, fast and user-friendly, SimpoeWorks helps you to save time and money in part and mold design, drastically reducing the number of mold prototypes. Register now on www.simpoe.com to download the free light version e-SimpoeWorks !
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