[center]T-FLEX CAD


Language : Russian | File Size : 5.11 GB

T-FLEX CAD is a professional design program that combines the powerful parametric capabilities of 2D and 3D modeling with the tools for creating and designing drawings and design documentation.

Extensive design automation tools, special tools for working with large assemblies, a single document structure, the ability to conduct collective development are just some of the features that allow T-FLEX CAD to be distinguished from other programs.
T-FLEX CAD is built on the Parasolid geometric core (� Siemens PLM software), which is today considered the best 3D modeling core, and is used by more than 1,000,000 jobs worldwide. Using the Parasolid core not only gives T-FLEX CAD powerful and reliable 3D modeling tools, but also provides integration with the best foreign design and calculation programs.

� Fast 2D-sketching
� Parametric 2D-design
� Full set of tools for the preparation of design documentation
� 3D modeling of parts of any complexity
� Creating 3D assemblies of any complexity
� Geometric analysis of 3D models and assemblies
� Engineering analysis of parts and structures
� Optimization of parts and structures
� Creating photorealistic images
� Powerful API-interface for developing your own applications
� Creating 3D-models for 3D printing

T-FLEX CAD includes all the features of T-FLEX CAD 2D and T-FLEX CAD SE plus:
� Built-in express strength analysis based on the finite element method.
� Built-in express analysis of the dynamics of spatial mechanisms.
� Obtaining mass-inertial characteristics of solids, three-dimensional assembly structures, including the center of gravity of a group of parts made from dissimilar materials.
� Setting materials, texture mapping, installing light sources, installing cameras. The possibility of "travel" inside the designed object.
� Visualization of three-dimensional objects in the form of an edge model, shading, rendering and deleting invisible lines. Visualization of 3D models, in which the image is dynamically intersected by a plane.
� Representation of the structure of a 3D model in the form of a tree.
� Obtain accurate drawings by type and section of a 3D model. The possibility of reversal of complex cuts.
� Construction of "album" dismantling axonometry with associative color transfer of the 3D model.
� Analysis of internal geometry using the trim plane.
� Associative relationship between the 3D model and the drawing.
� Construction of cuts and sections on projections, construction of local cuts, species with a gap.
� Transmission and acquisition of 3D geometry in the standards DXF 3D, STL, VRML, IGES, XT and XB (Parasolid), STEP.
� Spatial models based on Parasolid technology. T-FLEX CAD uses the latest versions of the Parasolid geometric kernel.
� Advanced interface that minimizes the number of actions to create 3D-elements.
� Dynamic highlighting of elements. A wide range of context-sensitive menus.
� Display of operation parameters by manipulators and control of parameters using manipulators.
� Tip the direction of execution of the operation with the help of decorations.
� Using tools that allow working directly in a 3D window on the principle "working plane - sketch - solid body - face - sketch - a constructive element". Ability to work with the entire set of parametric two-dimensional tools.
� A large set of types of working planes for the exact location of structural elements.
� Ability to build 3D-models based on existing two-dimensional drawings.
� Parametric three-dimensional 3D-models.
� Obtaining 3D-models of solids using the following operations:
- ejecting the source element in a straight line with the ability to set the angle of the generator (casting grade); the ability to automatically smooth the side edges, edges of the source or target surface; the ability to use texts for the operation "popping". To create a three-dimensional body, a surface is used as the source element (most often it is a profile or a face). For 3D surface modeling, you can use sets of edges or spatial curves. Regardless of the type of the original element, you can automatically create a body with walls of zero or a predetermined thickness, as well as the bottom or cover of a certain thickness;
- ejection of the original element in a straight line with the possibility of setting the angle of inclination of the generatrix (casting grade); the ability to automatically smooth the side edges, edges of the source or target surface; the ability to use texts for the operation "popping". To create a three-dimensional body, a surface is used as the source element (most often it is a profile or a face). For 3D surface modeling, you can use sets of edges or spatial curves. Regardless of the type of the original element, you can automatically create a body with walls of zero or a given thickness, as well as the bottom or cover of a certain thickness;

- rotation of the source element around the axis at a given angle; almost any element of the system can be used as a source element (profile, face, set of edges or spatial curves); the ability to automatically create a thin-walled element;
- creation of solids by sections and surfaces from a set of profiles, paths, edges, nodes;
- pulling the profile along the spatial trajectory with the formation of a solid body; the possibility of using a parametrically variable profile; the possibility of creating a thin-walled element;
- the creation of all possible types of standard holes. If necessary, the library of openings can be supplemented by the user;
- applying cosmetic threads on any cylindrical surface. When building a projection, the image of the thread is automatically transferred to the drawing;
- construction of chamfers;
- construction of smoothing with constant and variable radius. The change of the radius from the initial to the final can be defined by both linear and nonlinear law. Ability to use different geometry in the smoothing section;
- construction of smoothing on the basis of two surfaces. Each of the two original surfaces may be composed of several faces;
- construction of smoothing to three faces by forming a smooth transition from one surface to a third with the condition of tangency of the second;
- application of Boolean operations (intersection, union, subtraction) over any bodies and any set of bodies in a 3D model;
- construction of the body shell with the ability to select a set of removed surfaces and assign different thickness to the remaining faces;
- the creation of various types of slopes of surfaces, slope of bodies;
- clipping by surfaces or sections;
- creation of linear and circular arrays in three directions, with a variable number of incoming elements; arrays along the way; parametric arrays - with variable body geometry; optimal use of arrays for quick calculation of boolean operations. Setting array constraints, as well as exceptions from a single or cyclic array;
- creation of spirals, springs and threads of arbitrary section;
- operations for working with faces: merging faces, separating faces, removing faces, separating faces, replacing faces, changing faces, moving faces, expanding surfaces, filling an area;
- "piping" of the pipeline;
- work with sheet material: the ability to create the original billet parts of a given thickness; the possibility of bending and unbending the workpiece relative to the selected line; "Sticking" to the workpiece limb; making cutouts; modeling of sheet punching processes (bends, shoulders, grooves, luver, pockets, flanging, etc.).
� Complicated parametric 3D modeling using parametrically variable source elements.
� Creating profiles based on hatching, text, face, along the lines of the image on the working plane, projection of the profile onto the face, equidistant profile, expanded profile.
� Building sweeps of ruled, cylindrical, conical surfaces, as well as a set of surfaces.
� Optimum regeneration of parametric 3D models, significantly saving model recalculation time.
� Parametric build 3D models. Creating assemblies from individual 3D fragments. The ability to quickly assign parts to each other. Perform boolean operations between 3D fragments.
� Visualization of assembled 3D-models in disassembled form.
� Using a single work scheme and a single file for individual parts and 3D assembly models.
� Designing the top-down assembly 3D models. Modeling parts in the context of the assembly with automatic updates with changes.
� Creating mates in the assembly structure. Interactive task of movement and position of the links of the mechanism by the "drag and drop" method.
� Creation of adaptive fragments that take parameters and geometry by insert elements.
� Specialized pipeline modeling tools.
� Specialized tools for modeling sheet parts.
� Programmatic and visual analysis of the mutual intersection of 3D bodies in the assembly (collection analysis).
� Measurement of the characteristics of bodies, curvature of surfaces, curvature of curves, deviations of faces, the gap between the faces, the divergence of the normals of the faces.
� Evaluation of the smoothness of the 3D-model, shape unseedness.
� The tree of the 3D model and the 3D window are associated through the highlighting of elements. Actively used for editing, deleting, setting parameters, moving operations, performing boolean operations.
� Color display of the status of operations in the tree of the 3D model (visible, invisible, extinguished).
� Ability to overlay material on the surface.
� Set the texture, color, transparency, refraction, reflection of the material.
� Obtain photo-realistic images. The use of technology ray-tracing, bulk textures.
� Three-dimensional animation with the generation of AVI-files. The ability to create photo-realistic animated videos.

� Operating system: Windows 7 x64 and higher
� Processor: Intel Core i5 or higher
� Hard disk: SSD drive
� RAM: 8 GB or more
� Video card: NVIDIA or AMD video card with 1 GB or higher memory with support for OpenGL 4.2 and higher



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