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Product Design

Cimatron supports virtually all of the current industry-standard data and information formats. These interfaces include:

IGES, VDA, DXF, STL, Step, RD-PTC, Neutral Format files, UG/ParaSolid, SAT, CATIA, and DWG. Cimatron also offers support for the latest version of Catia's V5 family of formats. Cimatron's hybrid modeling technology features wireframe, surface, and parametric solid modeling tools. The surface and wireframe modeling tools are based on advanced algorithms that not only generate complete geometric solids, but also allow them to be flexibly controlled and modified. Solid modeling based on parametric, variational and feature-based modeling implies free and intuitive design. Parameters and constraints can be defined and modified very flexibly. There are no limitations to the order in which the model is generated. Sketching tools utilize intelligent guidance techniques to control constraints. Simple interaction means efficient design and optimization.

Processing Mould Design

MouldDesign is a 3D solid parameter-based solution that automates 3D mold design, automating the design and assembly of all individual parts, assemblies, and standard components. Users can easily define the orientations used to separate the model into cores, cavities, inserts, and slide fasteners. The Windows window-based interface includes menus. Toolbars. Color-coded patterns and dialog boxes. Parting lines can be defined, making it easier and faster to define parting surfaces. Dynamic movement of components can be visualized to illustrate mold design.

C i m a t r o n 's Electrode Design (Q u i c kElectrode) specializes in the design and manufacture of electrodes in the mold design process, automating the design and manufacture of electrodes, as well as process drawings and management information. Using Cimatron's electrode design allows users to work 80% more efficiently compared to traditional methods. The extensive electrode design and machining automation program accelerates electrode analysis, electrode extraction, electrode generation, and electrode documentation, allowing multiple users to work on a part simultaneously.

Cimatron NC

Cimatron NC - Cimatron's comprehensive NC solution with market-recognized machining strategies. Cimatron NC supports high-speed milling from 2.5 to 5 axes, and the knowledge of blank residues and flexible templates effectively Cimatron NC provides fully automated feature-based NC programs as well as feature- and geometry-based NC autoprogramming.

In E8.0, 5-axis milling machining has been improved to include 5-axis simultaneous milling, side-edge milling, and deep-cavity milling. Advanced scientific algorithms allow for optimized machining trajectories. A tool holder interference check has also been added to this version. This allows machining tasks to be completed even with shorter tools and higher cutting rates, and extends tool life.

Cimatron NC is fully integrated into the CAD environment, and throughout the NC process, the program provides the user with an interactive NC wizard, which, in combination with the Program Manager and Programming Assistant, graphically represents the different parameter options. The user is able to reconstruct the program without having to re-select the contours, and the NC program generation process and the status of the user's tasks are continuously displayed. It can be said that Cimatron NC improves the efficiency of the whole production process and breaks through the bottleneck in our daily machining.

Model machining

2.5-axis drilling and milling

Cimatron NC provides users with an efficient 2.5-axis solution in a 3D modeling environment. Rapid Drill automatically recognizes hole features in 3D models, surface models, and models, and automatically creates efficient drilling programs from predefined shape templates. The Rapid Drill program is a knowledge base based automatic drill generation program that dynamically reduces code production time by up to 90% and is very easy to work with CAD models in any format. The program optimizes drilling parameters and tooling, is fully compatible with the Cimatron Tooling Practice Module, and integrates seamlessly with Cimatron E CAD/CAM solutions.

3-Axis Roughing

Cimatron NC's powerful roughing program increases user productivity with its efficient machining strategies. Accurate residual stock models are consistently used throughout the machining program, effectively reducing blank cuts. The program automatically creates infeeds and outfeeds and freely adjusts the feed rate to the actual tool load. The roughing program offers a variety of machining strategies, allowing us to limit the machining range by machining zones, boundary curves and check surfaces, and fully supports high-speed milling.

3-Axis Finishing

The 3-Axis Finishing program offers a variety of machining strategies based on model features, and the analysis of the geometry gives us high efficiency and high quality surface accuracy. Horizontal and vertical areas can be machined using strategies such as contouring, adaptive layers, true loop cutting, and 3D stepover. Finishing also includes options such as root removal and pen style residue machining, as well as optimization for high speed milling.

5-axis machining

Cimatron provides users with a full range of machining capabilities, from positioning 5-axis to multi-axis milling. 5-axis milling, including roughing, finish machining with controlled camber and camber, side milling, and automatic tilting with short tool lengths, provides 5-axis milling that improves machining efficiency, extends tool life, and produces high-precision surfaces.

3-Axis Residual Machining

Defining the right machining strategy to produce high-quality surfaces comes from 3-axis residual machining. Residual machining identifies unmachined areas and automatically calculates toolpaths, and with the combination of complete machining tools, high speed milling, and small tools for residual machining, surfaces can be machined efficiently and safely. Knowledge of Stock Remaining (KSR) recognizes any shape of stock, with user-defined stock geometry that is automatically updated after each machining session and used to generate the next toolpath.

Residue machining

The residue machining function removes areas that were inaccessible to the previous (larger) tool, and implements an appropriate machining strategy for different features based on the origin of the feature being machined and an analysis of the geometry. Residue machining consists of: root clearing and pen machining. Root clearing recognizes and calculates areas of the part, automatically detects areas to be rooted, and uses different machining strategies for root clearing vertical and flat areas. For flat areas, contouring along the corners of the part is used, and for vertical areas, contouring is used. This enables a targeted machining strategy with a large margin for the previous process, which effectively protects the tool and ensures excellent machining results.

Insertion milling

Insertion milling provides an efficient machining strategy for roughing and finishing. Roughing can be done with high load bearing tools, milling as if drilling a hole, with the tool only axially stressed, even at high feed rates. This strategy can also be used to target vertical or near-vertical areas for finishing. When using large-diameter or small-rounded bullnose cutters, the desired curved surfaces can be accomplished with fewer toolpaths.

High-Speed Milling

High-Speed Milling (HSM) offers a variety of advanced toolpath features to meet the user's machining process. These include features such as helical feed filleting, fillet-connected pendulum machining, NURBS interpolation, feed rate optimization, and constant cutting load.

Intelligent NC

The Intelligent N C feature automatically calculates gross residuals and reduces unnecessary toolpaths based on knowledge of gross residuals. Automatically updating the blank and calculating part-to-blank differences after each toolpath calculation, the entire process template can be used to calculate again and is well adapted to new geometry parts.

Cimatron's strength is multi-axis machining, and can produce a very simple and efficient NC program, and with its powerful mold design features can be achieved product design - mold design - dismantle the copper male - CAM programming integration.