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Mechanical 2D and 3D Parametric Design Solutions T-FLEX Parametric CAD unites powerful parametric 3D modeling functionality with the parametric drafting and drawing production toolset. Innovative and professional T-FLEX Parametric CAD provides breakthrough parametric technology for mechanical design and drafting, combining production-proven Parasolid based solid modeling with powerful drawing capabilities. Top Systems also offers the comprehensive set of integrated applications for T-FLEX Parametric CAD, including CAM, FEA and PDM. T-FLEX is written for Microsoft Windows 2000, XP, Vista, 32 bit and 64 bit operating systems, and is distributed in various languages to customers around the world. Powered by Top Systems Ltd.
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Desktop engineering - lightning fast! T-Flex low-cost PLM delivers the high-end 3D CAD CAM CAE product design and manufacturing tools normally found in much more expensive platforms. The T-FLEX PLM suite includes 3D assembly management, testing and simulation, CNC manufacturing, industrial standard 2D drawings and more. T-FLEX CAD special hybrid combination of direct freeform & parametric solids/surfaces modeling can create virtually any 3D shape! Parameters can be saved to user-customized dialogue boxes. Assembly simulations animate moving models for checking if designs function as planned. T-Flex further allows users to include shapes directly imported from SolidWorks, Solid Edge, Parasolid, STEP, IGES and Autodesk Inventor files
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Products T-FLEX CAD T-FLEX Parametric CAD is a full-function software system providing mechanical design professionals with the tools they need for today’s complex design challenges. It unites powerful parametric 3D modeling functionality with the parametric drafting and drawing production toolset. T-FLEX Parametric CAD is an industry leading mechanical design system with flexible and intuitive workflow and superior design capabilities. The technical innovations and productivity advantages have made T-FLEX one of the most robust and versatile parametric modeling and drafting solution for product development. Its extensive set of tools makes T-FLEX the best choice for meeting any professional challenge. T-FLEX is used extensively for everyday mechanical design applications including 3D/2D design, drafting, conceptual sketching, reverse engineering, tolerancing inspections, rapid prototyping, and downstream manufacturing. Modeling Tools T-FLEX modeling and assembly tools enable your engineering team to easily develop a full range of products, from single parts to assemblies containing thousands of components. T-FLEX harnesses the power of Parasolid® – production-proven modeling kernel developed by Siemens PLM Software. Highly innovative parametric modeling tools allow designers to quickly create basic shapes and easily add common mechanical features like holes, rounds and chamfers, as well as more complex geometry such as draft angles, lofts, parametric sweeps , three-face blends, and helical features. Design Workflow T-FLEX supports a simple unified mode of operations for all types of documents and entities: drawings, assembly drawings, solids, surfaces, parts, parts with multiple solid bodies, assembly models, sheet metal, bill of materials, etc. You use a common set of editing and data management functions on all types of geometry, streamlining workflow. Up Parametrics and Adaptivity T-FLEX cuts down design steps by making changes that propagate instantly throughout your design, incorporating superior design engines for adaptivity and parametrics. This functionality helps you for example associate parts in a way that allows the change of one part to drive changes in associated parts. Any thing in T-FLEX can be related to anything else. Variables can be assigned at any time for component names, visibility, material, any numeric or text attribute of any entity. They can then be processed with any algebraic or logical expression to control the behavior of the design. The variables themselves can be changed manually by dragging entities on the screen, or typing values into the variable editor, or by reading ASCII or database files as assigned. Possibilities are endless and the interface is very intuitive. For this reason T-FLEX is a natural choice for family-of-parts manufacturers or any other design situations that use similar geometry but require many different sizes or permutations. Parametric Drafting Unlike other products, T-FLEX lets you create parametric 2D drawings from scratch. The 2D CAD roots of T-FLEX are apparent when creating objects. When compared to most other solid modelers, even those focused on product design, T-FLEX has a much more robust palette of 2D tools, especially when it comes to drawing complex geometry. Its parametric engine is the basis of T-FLEX design and unlike engines from other programs is not limited by the number of constrained 2D entities. T-FLEX drawing (parametric sketch for 3D operations) cannot be over or under defined. The drawing immediately updates to any changes regardless of their source. T-FLEX includes fully parametric drawing documentation, including dimensions, tolerances, text, and drawing notes. You can create parametric 2D assemblies by inserting parametric 2D components with complex parametric relations. The result can be fully automatic, so that a master parametric drawing does not require any editing as changes are required. Constant re-documentation can be avoided through the use of the powerful documentation parametrics that are inherent in T-FLEX. Up Creating Custom Dialog Boxes Creating their own dialog boxes of model parameters directly inside T-FLEX users can control parametric model in a very convenient and intuitive way. This unique functionality does not require any programming, programming knowledge or additional software installed. T-FLEX is a Creative Tool T-FLEX has one consistent characteristic for its history - its power is best utilized by the most creative designers. The interface is easy to learn and very consistent, but the real power lies in the incredible flexibility of design automation using parametric functionality. From the beginning the goal was to provide engineers with access to creative design by giving them optimizing control over any aspect of the design process. The program’s Total Flexibility approach can truly eliminate redundant tasks and enhance design efficiency. Up Assembly Modeling T-FLEX easily tackles assembly 3D models that are fundamental to mechanical design. You can build complex assemblies consisting of many components using bottom-up design, top-down design, or a combination of both methods. Configuration management helps to simplify design reuse by creating multiple product variations within a single document. T-FLEX can simulate true motion and mechanical interaction between solids that allow you to avoid potential design flaws. Adaptive Components T-FLEX supports adaptive technology that allows creating assembly relationships by assigning geometrical links. With this you can capture design intent accurately, and manage and edit assemblies more easily. Assembly Design Automation Parametric connectors simplify assembly modeling by automatic parameter assignment for the parts being inserted. Parts location and sizes will adjust automatically on model modification. The structure of an assembly may be alterable. The drawings generated from a 3D assembly will update automatically on model modification with all detailing elements. Up User-defined Features The innovative technology of parametric user-defined features substantially extends modeling functionality allowing users create their own modeling features. T-FLEX models may capture elements and geometry from other models as input parameters of operations inside their own model history tree. In that way any T-FLEX model can be defined as a special feature that will function equally with other modeling commands. This mechanism can dramatically reduce the modeling time providing users with the possibility of creating their own features and libraries of features for specific modeling tasks. Deformation Commands The set of deformation commands provide a simple way to change shapes of complex surface or solid models. Deformation may be applied either in a local area or globally. Various options may be specified by direct rules and parameters or via the special handlers. Fast preview based on input data is available prior to exact model generation. Surfacing T-FLEX synergistically combines solid and surface modeling enabling designers to extrude, sweep, revolve, and loft surfaces as can be done with solid models. It also enables to do things that can’t be done with parametric solids alone. For example, a designer can draw lines or curves in space and fit surfaces between them, or add surfaces that blend between non-intersecting surfaces. Integrated surface and solid modeling provides flexibility in making design changes through the use of parametrics, constraints, and associative operations. Up Direct Editing T-FLEX supports direct editing of 3D models, retaining history of the edits so that they can be regenerated. This is very helpful for the imported models when there is no access to the original history tree. For example it is possible to modify parameters of the faces whose underlying surfaces are analytical (cylinder, cone, sphere and torus), as well as the parameters of faces created as blends. Other editing features include imprinting, face replacement, face extension, face removing, body separation, etc. Detailing Features Professional detailing functions support quick creation and complete manipulation of all common annotations used on mechanical drawings. T-FLEX contains an unmatched set of capabilities for the 2D documentation process, with excellent drawing layout, detailing, annotation and dimensioning controls that automatically comply with the mechanical drafting standard you select. Streamlined drawing creation T-FLEX automatically creates and updates drawings from 3D models, quickly creating standard and auxiliary views, including section, detail, broken and isometric views. T-FLEX provides flexibility and control of section views with improved control of the depth of a slice and selection tools that allow you to predefine components on a per view basis when creating section views. As changes are made to parts or assemblies, associated drawings update automatically. With T-FLEX, you have full control over every element of your drawings, so you know that they meet the requirements of organizational and international standards. Additional advanced capabilities, such as threaded connections, intelligent hatching of assembly sections, and accurate local sections, can significantly increase detailing productivity. T-FLEX’s associative detailing tools help avoid costly errors by preventing incorrect annotations from reaching production drawings. Up Associative Bill of Materials (BOM) T-FLEX can generate and update an accurate BOM in a fraction of the time required by traditional 2D methods. Part and subassembly quantities are always kept up to date, and are instantly organized and populated into a drawing BOM. Changes to the assembly (removing a part, for example) are associative, so the BOM table is updated automatically. BOM templates and table properties (column headings, sorting, title blocks, etc.) are fully customizable. Integrated Sheet Metal Design T-FLEX provides a set of commands tailored for the efficient construction of sheet metal parts from design of sheet metal components to flat pattern development and the creation of engineering drawings. Up Mold Design T-FLEX provides a sequence of integrated tools that control the mold creation process. You can apply body taper; generate parting lines and surfaces; resize the model's geometry to account for the shrink factor when plastic cools; perform tooling split to separate core and cavity. With the model finished, you can examine it for potential problems that might prevent the core and cavity from separating. Express FEA Built-in Express Analysis offers an easy-to-use first pass stress analysis tool that enables design engineers to execute design verification directly in T-FLEX. It helps to determine how designs will perform under real-world conditions, and identify potential design flaws before expensive physical prototypes are built. Express Analysis uses the same design analysis technology that professional FEA add-on module uses to perform stress analysis. More advanced analysis capabilities are available within the T-FLEX Analysis line of products. Up Interactive Motion Simulation T–FLEX provides a motion simulation solution for analyzing the complex behavior of mechanical assemblies. T–FLEX Dynamics allows you test virtual prototypes and optimize designs for performance, safety, and comfort, without having to build and test numerous physical prototypes. Results are viewable as graph, data plots, reports, or colorful animations that you easily can share with others. Weldment Design and Documentation T–FLEX lets you work in a weld-specific environment with functionality tailored to the unique design requirements of designing and documenting weldments. Model weldment annotations are associated with the model and automatically get updated when the model is changed. Up Open API T-FLEX Open API is based on .NET technology offering customers and third-party developers extensive possibilities for developing add-on applications in various areas. T-FLEX’s set of entities can be extended with the custom objects. T-FLEX Open API supports full object oriented programming concepts and multiple programming languages with identical functional access to all T-FLEX functionality. It also helps users to customize T-FLEX for their specific environment and automate specialized workflows. Product Manufacturing Information (PMI) T-FLEX delivers the functionality needed to produce 3D-annotated designs to serve as single digital representations capturing all product information – reducing or eliminating the need for drawings in design reviews or manufacturing. Support for PMI technology allows the user to take established drawing dimensioning and annotation methods and take them to the 3D realm. It helps to generate a 2D drawing, extracting much of the vital detailing information automatically. It is also possible to modify a 3D model directly by changing the values of the 3D dimensions. Parametric Engine for Internet Using T-FLEX and T-FLEX Open API, third parties, OEMs, developers, and system integrators can deliver parametric CAD functionality across a wide range of Internet-based products. T-FLEX utilized as an Internet engine, provides engineers, manufacturers and distributors with opportunity to display their products, use third-party designs and perform marketing activities. Up Multilingual Support T-FLEX is a Unicode application and hence supports all of the languages around the world. Unicode support in T-FLEX means that users can utilize multilingual text that will be displayed correctly in T-FLEX documents. There will be no problems with any language files names under any language version of Windows operating system. Users can name objects and parameters in whatever language they like. Interface Flexibility T-FLEX’s multiple interface options help maximize productivity by allowing users to choose an interface that matches their experience and preferences. The user interface is specifically designed to remove command clutter and operational complexity. The Windows-style pull-down menu interface is easy to navigate. Compact text-based command bar, icon toolbars and shortcut key assignments are also available. Enhanced capabilities, such as intelligent positioning tools and pop-up menus driven by hot key activation, greatly simplify workflow. T-FLEX provides direct model interaction, using 3rd mouse button, dynamic geometry preview, and support for SpaceMouse® to seamlessly blend frequent and advanced capabilities. Up Translators The rich suite of T-FLEX translators enables you to satisfy differing import and export requirements, effortlessly. T-FLEX is interoperable with the most widely used 3D-modeling and 2D-drawing systems via the following formats: Parasolid, IGES, STEP, Rhino, STL, DWG, DXF, SolidWorks, Solid Edge, Inventor etc. Additionally, T-FLEX provides options for exporting graphical images to presentations, web pages, and other documentation. T-FLEX Parametric CAD Requirements Minimum requirements: Microsoft® Windows® 2000, XP, 2003 Server, Vista 32 or 64 bit Intel® Pentium IV or equivalent 1 GB system memory (RAM) 250 MB hard disk space Recommended: 2 GB memory (RAM) or more for large assemblies OpenGL Graphics Accelerator