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Full 2-Axis Programming
GibbsCAM Production Turning provides a full range of functionality for defining processes for efficiently machining 2-axis parts from wireframe geometry.
Graphical Tool Definition
GibbsCAM Production Turning's graphical user interface to define tools shows the user key dimensions to allow easy and error free tooling creation. The system supports wide variety of predefined tool types as well as user-defined form tools.
Start/End Point Control
With GibbsCAM Production Turning you have complete control over where you initially position the tool to start machining to where you finish machining. Approach extensions are automatically generated if the tool is started off the machined profile.
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GibbsCAM Machine Simulation
An extension to GibbsCAM’s integrated Cut Part Rendering visualization/verification capability, Machine Simulation uses animated machine tool models to identify any program errors before they cause costly mistakes on the shop floor.
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Eureka performs a complete 3D-simulation of machine tools through a simple and intuitive graphical interface and starting from the G-code.
Eureka helps to avoid risks of damaging expensive work pieces, breaking tools and fixtures or even crashing a CNC machine because of some programming error.
Thanks to the possibility of customizations at any level many important manufactures turned on Eureka as their own verification software and as a solution for their customers.
Eureka supports any machine and any controller on the market like: Heidenhain, Fanuc, Siemens, Num, OSAI, Z32, Heller. Other controller can be easily integrated on demand.
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axis machining has traditionally been regarded as advanced technology best suited to the aerospace and automotive industry. 5 axis machining offers many advantages, all of which are now being applied to the mould and die sector. VISI Machining provides the operator with a productive solution for creating highly efficient toolpaths with advanced collision control for the most complex 3D data.
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PartMaker CAM Software for CNC Lathes uses visual representation of turning operations and cutting tool parameters to assure quicker learning. The task of lathe programming is made so simple that even novices can produce good programs in a matter of minutes. Once the desired operation is selected, a graphical representation of the tool motion and material removal is shown.
With every new selection, the picture changes to show exactly how the operation will be performed. The parameters of each operation, such as finish allowances, depth of cut and clearances, are clearly displayed on the picture making entry of these parameters very easy
Key Features
Pictoral explanation simplifies parameter entry
Context sensitive help on hand
Tools Data Base stores inserts' and holders' parameters
Tool paths for turning, contouring, threading and grooving are calculated and displayed
Automatic undercuts detection
User defined hole making cycles support drilling, tapping and reaming
Materials library information files easily modified to meet shop practices
Optimum feeds, speeds, gear ranges and cycle times automatically applied
Allows easy change between machine specific canned cycle and "long hand" G-code output
3D Solid Modeling Verifier simulates machining and material removal
Bi-directional DXF interface allows data exchange with CAD systems
Post Processor Library contains sample Post Configuration Files to support a vast array of machine types an controls
Configurable Post Processor utility allows for easy customization of machines hardware features such as bar feeders, pullers and other machine specific programmable features
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SPRIT SolidTurn® CAM Software
Full Programming for Traditional and Multi-axis Turning
Traditional turning centers are being rapidly supplemented by multi-axis machines with the ability to produce complex parts unattended. Whether you are looking for a CAM system to automate your traditional turning "from roughing and grooving to threading and finishing" for faster, more accurate results, or to maximize your multi-axis machine tool investment, ESPRIT is the right CAM choice.
Swiss-style Machine Programming
Program your multi-axis Swiss-style turning centers with ESPRIT and realize their potential for single set-up, versatile, accurate, unattended machining. ESPRIT accommodates the special demands of your Swiss machines and makes it easy to create programs that take full advantage of Swiss-style capabilities with comprehensive tool path creation, simulation, collision detection, and accurate G-code generation. ESPRIT provides factory-certified programming solutions for Swiss-style machines from the leading builders including: Citizen, Star, and Tsugami.
Multi-Turret, Multi-Spindle Production Turning
Gain full control over your production turning with ESPRIT’s program synchronization, dynamic simulation, and accurate collision detection. You’ll be empowered to work simultaneously on the front and/or back of the work piece with one, two or more cutting tools.
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"For Mid/High Range CNC Automatic Lathes User..."
This will powerfully support your advanced machining data programming.
Star CAM System
• Comfortable, easy-to-learn and easy-to-use.
Closely follows the Windows GUI standard
It is simply operated in dialogic operation. Easy machining setteing, such as machining path pattern, and approach, return.
Data base utilization/
ISO/ANSI tool, and automatic lathes, tool material property data base loading(cutting condition etc.)
• Simulation (Verification)
Dynamic Visualization/
The real cut simulation by 3 dimensional models
Interference check functional loading (a tool / tip holder / cut material)
The tool path calculation of real time/
A tool path calculation of in accelerated by the high-speed operation.
• A convenient data input and output
Reads any all major CAD data files/
IGES, SAT, DXF, SolidWorks, Solid Edge etc
Data Output/
The optimum NC code for a star's machine
The machining sheet to Excel
• Simple 2D and 3D CAD function
2-dimensional-CAD and 3-dimensional-CAD function
• Knowledge Base Machining
Libraries for your tools and processes
Databases for your materials, speeds and feeds
Customize is possible at VBA usage
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The T4 was engineered for machining the largest size of aerospace structural parts.Carbon-fiber-reinforced plastic (CFRP) has been extensively applied to aerospace structural parts to reduce the weight of aircraft and improve their fuel economy. The use of titanium alloys has also been increasing recently because their coefficient of thermal expansion is compatible with that of CFRP. Machining productivity is extremely low for titanium alloys because their hard-to-cut nature limits the cutting speed owing to the relationship with tool wear. Makino has developed the T4 to improve machining productivity for these hard-to-cut materials. Typical machining applications for the T4 include edge frames and pylons.
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Sturdy, accurate and absolutely reliable, the new TRIM series by Belotti is the show-piece of t-axis machining centers dedicated to the trimming of plastic and composite materials. Like the previous MKN model, the new TRIM machining center ensures extreme accessibility to the work area, so that the workpiece-holder template can be accessed without any problems.
The adjustment and working qualities of the TRIM series machining centers meet any needs fully in terms of machining speed and quality. Among the various optionals automated loading/unloading systems (rotary tables and parallel loaders) enable tooling the machining center quickly and saving precious time.
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The EASTMAN conveyor cutting system automatically feeds and spreads material onto the conveyor and its internal blower system ensures material hold-down and cutting accuracy. Eastman's gantry and tool head design utilizes a precision servo-controlled belt tracking system, with a rack and pinion drive, which can cut a wide variety of materials and thicknesses, with unprecedented speed and accuracy.
Cutting & Plotting Speed: 60 inches per second (152.4cm/s)
Conveyor Belt Speed: 11 inches per second (28cm/s) standard
Acceleration: 1.3G (500 inches/second²)
Active Cutting Widths (meters): 2.0m, 2.4m, 2.7m, 3.2m, 4.0m. + custom.
Overall Table Lengths (meters): 4.9m, 6.1m, 7.3m. + custom
www.eastmancuts.com
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Pinking Machine
Brand new, unique: the world's leading professional high performance, heavy duty pinking machine with exceptionally high-speed cutting power. Equipped with hydraulic rotary table and all of the latest modular design features.
Technical Data
- Knife length 1620 mm (64")
- Stroke 40-130 mm (1 1/2"-5")
- Number of cuts per minute 18-36
- Drive / Power requirement hydraulic / 7.5 kW
- Table size 4940 x 1800 mm (194 1/2" x 71")
- Weight ~ 2800 kg (6160 lb.)
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Sample applications of the LASERTEC series:
LASERTEC 40: Precision tools, tool and mould making, embossing stamp, coins and medals, toy industry, portable radio industry, display industry, lettering and engraving
LASERTEC 80 FineCutting: Precision tools, electronics industry, medical technology, fine die parts < 5 mm, soldering templates, power generation
LASERTEC 80 / 130 PowerDrill, 80 PowerShape: Precision laser drilling of cooling air holes as well as the production of shaped hole geometries in turbine components (e. g. direction and rotor blades) for the aerospace industry, repair and maintenance of turbine components and power generation
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Modular system LWS-C
* Compactly laser machining system in portal design
* Laser working head pivoted manuel or motor in the z axis
* Travel of linear axes:
X up to 400 mm
Y up to 300 mm
Z up to 200 mm
* Repetitive accuracy ± 0,01 mm
* high-performance multiphase motors with encoder or AC servo-motors
* Control on PC basis CNC E.PNCS5 or SINUMERIK 840D
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Laser welding system ELC 250 DUO
The extraordinarily sturdy twin-spindle laser-welding machine offers simultaneous loading and unloading of the work spindles. The clamped/compressed component can be welded axially and radially. An integrated compression unit ensures that welding distortion is reduced to a minimum. The ELC 250 DUO features a fixed beam-focusing unit. All optical components remain stationary throughout the machining process.
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Winbros’ LMC Laser machine has been designed to machine blades, vanes and similar sized components. The LMC system can be configured to allow fitting of the most suitable Laser for the application, the four Laser types generally used are Pulsed High Peak Power Nd:YAG, predominantly for drilling, Continuous Wave CO2 or Fibre Laser for cutting, cladding and welding and High frequency Diode Pumped Nd:YAG for ablation.
* 5 axis system
* Heidenhain control system
* PC process controller
* Contact probing
* Non contact probing (conoprobe)
* Diffuser machining
* Cooling hole re-opening
* Ablation laser with laser scanning head
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