Apr 302017
 

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Working with Delcam PowerMILL 2012 SP7 x86 x64 full
Working with Delcam PowerMILL 2012 SP7 x86 x64 full

Delcam PowerMILL is an independent CAM-system for the preparation of highly effective control programs for CNC milling machines, which allows you to quickly create the path of the tool without sloughing on the math, using 2.5D machining, 3-axis machining or multi-axis simultaneous machining. Then these trajectories can be checked for collisions with other models (for example, clamps) and a cartridge, before outputting the trajectory to the tap-files.
PowerMILL has a wide range of possibilities for reading CAD files. It supports IGES, VDA and STL formats, which allows you to import data from any CAD system that supports these formats.
Using the PowerMILL simulation, you can load the entire machine in order to check the trajectories and visualize the actions of the machine and tool from different points of view.
PowerMILL is the leading software CAM product for manufacturing complex shapes, often found in the instrumental, automotive and aerospace industries.
Main features:
2D processing
2D processing operations, such as flat surface machining, chamfering and hole drilling,
Are an integral part of the process of manufacturing complex parts. Being world
Leader in the field of innovative high-speed and multi-axis processing, PowerMILL contains
High-performance, comprehensive functionality for 2D processing.
In PowerMILL 2D pocket milling and profile processing are performed directly on the curves of the 2D frame, which allows you to quickly handle the bosses, pockets and side elements.
The user can specify the number of radial and axial movements, and PowerMILL automatically compensates for the tool radius.
Pocket milling and profile processing functions support a 3D model of the rest of the material, so PowerMILL can be used for 2D chamfering and boring operations.
All 2D elements can be fully tested for incidents and collisions using the 3D model.
Highly efficient roughing
High efficiency of roughing strategies is achieved due to a constant load on the tool and smooth toolpaths without sudden changes in the cutting direction.
As the roughing area is removed from the theoretical surface of the finished part, Delcam’s patented technology smoothes the trajectories of the rough passages.
PowerMILL automatically removes small scallops of the remaining material, adding smooth tool passes to these areas.
Undeveloped scallops can appear at certain ratios of the radius of the trajectory and the pitch between the tool passes.
Using the full 3D model of the rest of the material in PowerMILL provides stable cutting modes and reduces unnecessary travels through the air.
At any stage of processing, the remaining material can be calculated and visualized, which makes it easier to select the appropriate strategies and tools for removing the remaining material.
High-speed finishing
High speed finishing controls the smoothing of the trajectory and the load on the tool.
PowerMILL reduces sudden changes in the direction of the tool.
3D-offset processing
3D-offset processing provides an excellent quality
Surface, allowing you to control the distance between successive
Passages along the height of the scallop. This leads to a different step
Between the aisles on steep and flat surfaces.
Finishing with 3D spiral offset prevents the appearance of
Marking by maintaining a constant tool contact
With the surface of the part with its continuous smooth motion along a spiral.
Finishing the strategy ‘Sheer + Slope’
Optimized strategy ‘Sheer + Slope’ combines trajectories,
Created by a 3D displacement on gently sloping areas, and processing ‘C constant Z’ on vertical walls, automatically creating optimal trajectories.
PowerMILL controls overlapping areas of both strategies.
Parametric processing
The parametric offset creates trajectories for processing the surface with a variable, rather than a constant step.
This strategy allows you to process the entire area without sudden changes in direction.
Five-axis machining
Five-axis machining strategies PowerMILL provide an excellent finish surface quality,
Exclude unpredictable movements of the working parts of the machine and significantly shorten development time
Control programs. Reducing the delivery time of finished products, increasing productivity
Labor and increased profitability make the five-axis machining very attractive
Positional (3 + 2) processing
The deviation of the tool axis from the normal to the surface with an angle of attack or inclination not only improves the cutting modes, but also allows processing more inaccessible areas. Intuitive user interface PowerMILL makes it easy to program positional processing, enabling you to process parts in one installation more efficiently and achieve high quality finishing.
Continuous five-axis machining
Strategies for continuous five-axis machining of PowerMILL allow for full control over the orientation of the tool axis relative to the workpiece. These strategies are ideal for pruning and drilling composite parts, as well as for machining high-wall sideways cutters. It is also possible to process complex parts in one installation, which significantly reduces production costs and saves time.
Five-Axis Finishing
When finishing the angular zones, you can take advantage of the positional (3 + 2) and continuous five-axis strategies of PowerMILL for reliable and safe removal of all the remaining material. Automatic functions for finishing corners themselves determine where to process the steep or gently sloping areas of the remaining material, which shortens the programming time, extends the tool life and improves the quality of the treated surface.
Automatic collision avoidance
PowerMILL collision avoidance feature automatically
Deflects the axis of the instrument from obstacles to a specified distance.
When the obstacle is traversed, the tool axis returns to the original orientation.
In addition to avoiding obstacles, this function is also used when processing undercuts.
Blades, mono-wheels and impellers
A key feature of the PowerMILL CAM system is that it allows you to simply perform very
Complex operations. This becomes especially noticeable in the processing of blades, mono-wheels and impellers.
Automated approach PowerMILL allows you to effectively program the processing of complex
Details with minimal effort on the part of the user. Intelligent prevention function
Collision ensures the creation of smooth trajectories, eliminating slashes and collisions
Tool with workpiece, machine elements and fasteners.
Adaptive machining replaces the traditional sequence
Technological processes (from CAD – to CAM – to the CNC machine – to the final
Control of accuracy) to a progressive integrated approach, in which
Interoperational accuracy control is performed directly on the CNC machine,
With the help of measuring heads. The solution for adaptive machining,
Provided by Delcam, can be customized to the features of production,
Ensuring that the accuracy of the manufacture of parts corresponds to the required quality.
The technology of adaptive machining from Delcam allows you to perform repairs
Front and rear edges of blades of gas turbine and turbojet engines.
Channel processing
The PowerMILL channel processing module is a specialized solution for fast and efficient
Processing of the cylinder heads and other parts with internal channels. Despite,
That initially this solution was developed for processing channels in engines, it can be used
For the creation of closed monocols, impellers and other hollow forms.
PowerMILL begins processing channels using a three-axis or positional (3 + 2) strategy for maximizing the fastest retrieval of material using a tool with a minimum length that provides a better result. You can use the technology of automatic collision avoidance PowerMILL to convert triaxial trajectories into their five-axis equivalents for processing all hard-to-reach parts of the channel. When PowerMILL reaches the processing limits in one direction, it automatically executes the approach from the opposite side of the channel, using the same processing strategy to remove material throughout the channel.
Path patterns
PowerMILL trajectory templates allow standardizing the parameters of control programs for the entire enterprise.
You can use mathematical expressions to specify the parameters of the pattern templates. For example, you can specify the step size as a percentage of the tool diameter so that it is automatically calculated each time a new tool is used. Customizing the PowerMILL trajectory templates makes programming more efficient, reducing the number of mouse clicks and reducing the chance of a programmer-technologist error.
Customizable toolbars
In PowerMILL, you can easily create custom toolbars to reduce the number of mouse clicks required to perform frequently used functions, especially those contained in the PowerMILL menu. Using custom toolbars makes programming easier and faster.
Macros
Macros contain a sequence of commands for automating typical operations. Macros can be created by writing a sequence of operations at the time they are executed in PowerMILL or typing commands in a text editor. Macros can be used for visualization, fine tuning of leads, taps and transitions, setting parameters for control programs, automating the execution of frequently used processing sequences, and much more.
To automate the decision making process, you can create complex macros with dialog boxes and use If-Else type conditional operators, loops with Do-While conditions, and other programming functions.
3D modeling for processing
The PowerMILL Modeling module contains extensive functionality for 3D modeling, necessary
To restore, modify and edit CAD-models received from customers.
The available 3D modeling tools allow you to fix any problems with geometry even before,
As you begin to develop the UE, without involving third-party CAD-systems.
A full set of tools for restoring and editing CAD-models allows you to find and fix
Any problems in the geometry of surfaces that arose in the process of 3D modeling or import.
Interactive tools for analyzing 3D models identify problem areas that can cause difficulties in subsequent processing,
And functions of fine-tuning CAD-models allow to make necessary corrections to the geometry.
The use of PowerMILL for the manufacture of electrodes
The Delcam Electrode module helps in the shortest possible time to design complex electrodes for electro-erosion processing and represents a completely completed solution that covers the entire cycle of electrode production – from design to final precision control.
A single TRODE file contains all the necessary processing information, which simplifies data management and ensures uniformity of processes.
The Delcam Electrode application allows the use of new direct modeling tools,
Based on the technology of solid-state 3D modeling, to extract, edit and create electrodes.
You can create an electrode based on the information about the workpiece, the holder, the interelectrode gap and the parameters of EDM;
Create accompanying documentation for the electrode.
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