GibbsCAM Production Milling

Milling Options

GibbsCAM’s full range of milling options provides you with the power and flexibility to program all your CNC mills with a single program and a single interface. GibbsCAM gives you the freedom to make your parts, your way.

2 and 2.5 Axis

GibbsCAM Production Milling delivers an easy-to-use CNC programming solution for shops that are cutting 2-axis features such as pockets, holes, and slots.

3 Axis

GibbsCAM 3-Axis milling creates smooth, accurate tool paths for cutting complex shapes using either surfaces, solid models, or any combination of both.


GibbsCAM Multi-Axis milling uses state of the art toolpath strategies to generate accurate, reliable G-code for 4 and 5-Axis CNC machining centers.

Complete CAM solutions for any CNC machine


GibbsCAM Production Milling supports 2-axis through simple 3-axis wireframe machining with full functionality…

Solids Import

The Solids Import option provides entry-level support to machine solid models. Solid models can be read, view…

2.5D Solids

GibbsCAM 2.5D Solids includes significant surface and solid modeling capabilities and the functionality to ma…


VoluMill™ for GibbsCAM is an ultra-high performance toolpath (UHPT) option that uses a continuous, high-speed…

Machine Simulation

An extension to the GibbsCAM integrated Cut Part Rendering visualization/verification capability, Machine Sim…


Radial Milling

The GibbsCAM Rotary Milling option drives one rotary and three linear axes to achieve a 4-axis toolpath. It p…

Polar and Cylindrical Milling

The Polar and Cylindrical Milling option drives one rotary and two linear axes to achieve a 3-axis toolpath. …


The GibbsCAM 5-axis option supports simultaneous 4- and 5-axis machining with various tool types. In combinat…

5-Axis Porting

An addition to GibbsCAM 5-Axis Milling, 5-Axis Porting is optimized to simplify machining ports, manifolds, t…

5-Axis MultiBlade

An addition to GibbsCAM 5-Axis Milling, GibbsCAM 5-Axis MultiBlade is optimized for programming machining cen…

עיבוד רב תהליכי Multi-Task Machining

Specifically designed to address the CNC programming requirements of complex, multi-task machining (MTM) tool…

Tombstone Management System

The Tombstone Management System (TMS) was developed specifically to simplify and streamline the multi-part se…

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איך ניתן לרכוש את תוכנת GibbsCAM?

Choose from three base packages:

•    GibbsCAM לכרסום: 2 צירים, 2.5 צירים, 3 צירים
•    GibbsCAM לחריטה: חריטה ב- 2 צירים
•    GibbsCAM לכרסום משולב חריטה: תמיכה בריבוי צירים, וצריחים - X, Y, Z, C ו- B

Then add software maintenance and options as needed. Because all options are integrated into a single interface, you don’t need to learn a new program, which saves time and training costs.


בנוסף, GibbsCAM מאפשרת להשתמש בתוכנה במשך 30 יום ואם אינך מרוצה - כספך יוחזר.


GibbsCAM Production Milling supports 2-axis through simple 3-axis wireframe machining with full functionality for contouring, pocketing with unlimited bosses/islands, thread milling, face milling, 2D/3D spiral creation, drilling with support for many drill cycles, tapping, and boring. It also supports simple 4th-axis positioning. You can clean material off the top of a part with automatic cycles for face milling like spiral, zig-zag, back and forth, and one direction. GibbsCAM Production Milling provides easy-to-use, powerful programming capabilities for your machine tools.

Production Systems: Milling, Turning, and Mill-Turn data sheet

Freeform Geometry Creation

Whether you start with imported geometry or need to create your own geometry, the GibbsCAM Production Milling freeform geometry capabilities provide a powerful means to create and edit geometry for machining. The GibbsCAM graphical user interface infers what operations you want to perform based on the selected elements, which dramatically streamlines interactions with the system. Auto-chaining eliminates the need to stop the workflow continually to trim and connect geometry.

Graphical Tool Definition

The GibbsCAM Production Milling graphical user interface displays key dimensions to create error-free tools easily. It supports a wide variety of predefined tool types and user-defined form tools.

Multi-Process Programming

Select geometry once and apply multiple machining operations like a series of rough, semi-rough, finish passes to it all at once. The resulting processes are associated with each other and the original geometry, so updates are accommodated easily.

Knowledge-Based Programming

You can save processes including Multi-Process Processes and associated tooling and re-use them between programs. You can develop a knowledge base library of process/tooling from your shop’s best machining practices to improve programming efficiency, program consistency, and part quality.

Full 2- and 2.5-Axis Programming

GibbsCAM Production Milling provides a full range of functionality to define processes for efficiently machining 2- and 2.5-axis parts from geometry.

Advanced Pocketing Routines

The GibbsCAM Production Milling advanced pocketing routines support machining open-sided pockets and pilot and/or auto pocket corner drill pockets with unlimited islands or bosses. You can specify whether to machine pockets breadth or depth first. It supports pocketing machining strategies including Auto Plunge, User Plunge, Ramp, Periphery Ramp, and Helix.

Boring/Drilling Sub-Routines

GibbsCAM Production Milling supports a wide range of boring (bore, fine bore, backbore) and drilling sub-routines to optimize efficient hole-making operations.

Solids Import

The Solids Import option provides entry-level support to machine solid models. Solid models can be read, viewed, and manipulated. You can select and extract geometry for machining. With Solids Import, you can import a solid model, view it, and extract geometry from selected edges, which you can then machine. This option is ideal if you machine wireframe geometry and want to expand your capabilities to support rudimentary solids machining.

GibbsCAM Solids data sheet

Entry-Level Solids Support

Solid models are more and more common in manufacturing as a source data type. Solid models provide more accurate geometry than other formats, which reduces errors. GibbsCAM solids-based options are built on the Solids Import option. If you are ready to step up to solids, Solids Import provides basic support to machine solid models in an easy-to-use environment so that you can ease into solids.

Native Parasolid Support

Solid models are available in a wide variety of formats, from industry standards like STEP, to CAD-system-specific formats, to kernel modeler formats. GibbsCAM Solids Import supports Parasolid files, a kernel modeler format widely used by numerous popular CAD systems like Siemens Solid Edge® and SOLIDWORKS®. Sharing a common modeling kernel ensures that you can read CAD models in Parasolid format directly into GibbsCAM and then view and manipulate them. Build your solids-based technology on a solid foundation.

Solid Viewing

Solid models provide a more complete representation than wireframe or surface models, which allows them to render more accurately. You can choose from a variety of solids display modes. You can orient your view dynamically while also providing quick access to standard views with the innovative GibbsCAM virtual trackball. Get a solid view of what you are machining.

Extracting Geometry from Solids

Solid models contain both wireframe and surface geometry for the richest amount of geometric data. And solid models ensure accurate edge geometry between surfaces. With GibbsCAM Solids Import, you can extract a solid model’s wireframe geometry, which corresponds to the edges of a part, and directly machine from it. Or, if necessary, you can modify the extracted geometry before you machine it. Take advantage of solid model accuracy.

Slicing Solids

Sometimes, where you want to machine is not necessarily defined by an existing edge. With GibbsCAM Solids Import, you can generate wireframe geometry by cutting the solid with a plane. You can then machine or further manipulate the resulting geometry. Get solid capability built on solids technology.

Foundation for Solids-Based Options

Solids introduce a whole new range of capabilities from data exchange, to visualization, to machining, to verification. With GibbsCAM Solids Import, you can choose to add additional capabilities seamlessly, which further expands your solids-based technology. Read in CAD data in other solid formats like ACIS files, CATIA V4 or V5, Pro/ENGINEER, and STEP AP203 or AP214. Grow at your own pace while you protect your investment.

2.5D Solids

GibbsCAM 2.5D Solids includes significant surface and solid modeling capabilities and the functionality to machine surfaces and solids directly. Create, import, and modify solid models and then generate programs to machine them. Use specialized tools to import, repair, and automatically solidify surface data. Increase your efficiency and productivity by creating CNC programs faster and more easily.

GibbsCAM Solids data sheet

Powerful Solid Modeling

Whether you import solid models from a CAD system, create your own from scratch, or modify an imported solid to create a manufacturable version, GibbsCAM 2.5D Solids provides a full range of solid modeling functionality with advanced functionality like history trees to support you. And its industry-leading ease-of-use makes working with solids straightforward and easy-to-understand. With its powerful solid modeling tools, you can take full advantage of solid modeling technology.

Importing and Repairing Surface Models

Even with the transition to solids, CAD systems still generate surface models that must be imported and machined. With GibbsCAM 2.5D Solids, you can read in surface models and then repair any problems that you encounter with a broad range of surface modeling tools. And you can create your own surfaces for machining. If you still work with surface models, GibbsCAM 2.5D Solids can still cut your jobs and provide a great migration path to solids-based machining.

Automatic Solidification

With GibbsCAM 2.5D Solids, you do not have to start with solid models to take advantage of solids-based machining. Automatically stitch surface models, whether imported or created, together to create solid models that can then be further modified with the GibbsCAM solid modeling tools or machined directly. Access the tools you need to transition from surface-based to solids-based CAM.

Directly Machining 2.5D Solids

Not only do solid models provide considerable advantages during design, but they also offer many advantages during machining. GibbsCAM developed machining functionalities so that users can machine solids directly and take advantage of the additional information available in solids, which results in improved performance, reliability, and efficiency.

Solids Positioning Tools

Since solid models are the main building block within GibbsCAM 2.5D Solids, it supplies powerful positioning tools so you can position and orient solids quickly, easily, and precisely. Not only are these tools extremely useful when modeling a single part made up of multiple pieces, but they can streamline setting up part models in fixturing significantly. Focus on how things need to be placed, not how to calculate the rotations and transformations to get them there.


Identifying the manufacturable features in a part is a common starting point for a program. GibbsCAM 2.5D Solids includes the Profiler, an innovative interface that interactively defines features like bosses, slots, and pockets. Unlike automatic feature recognition, the Profiler gives you complete control over the geometric elements that are included in a feature. The Profiler can also derive geometry interactively for machining. Its robust, feature-based machining provides you with powerful programming tools.

Automatic Feature Recognition (Holes)

Hole-making occupies close to 80 percent of machining time with most production machining jobs. Holes also represent a significant amount of programming time in production parts. Fortunately, holes are also fairly well-behaved features in solid models. GibbsCAM 2.5D Solids provides an automatic feature recognition (AFR) capability that identifies holes along with their position and orientation and also determines various hole aspects (chamfer, counter-sink/bore, bottom condition) based on the hole’s geometry. Leverage the AFR capability to improve your hole-making efficiency and quality.

Hole Manager

Streamline hole-making productivity and improve overall quality. With hole-making occupying close to 80 percent of production parts’ machining time, how you identify, group, and program holes are extremely important. The Hole Manager is a front-end to processing hole features that displays the parameters of holes and enables you to group them for processing. The Hole AFR is integrated with the Hole Manager so that you can identify hole features to be directly loaded into it automatically. The Hole Wizard is similarly integrated so that hole information is passed directly for automatic tooling and toolpath generation.


VoluMill™ for GibbsCAM is an ultra-high performance toolpath (UHPT) option that uses a continuous, high-speed toolpath for an optimized CNC program. These powerful, high-speed, high-material-removal-rate capabilities can help you create the fastest, most efficient toolpath for a wide variety of milling part types in your shop. The process automatically takes into account the best option for milling pockets including the tool speed plunging into the material and material removal rates. Variation in tool load is smoothed, which allows the machine to use much higher speeds and feeds.

  • Improves productivity.
  • Reduces cycle time.
  • Extends tool life.
  • Provides up to 100 percent stepover with no uncut material.
  • Safely doubles machine output.
  • Reduces energy costs by up to 60 percent.
  • Fully integrates into the GibbsCAM with the same look and feel.
  • Requires zero post-processor changes.
  • Automatically adjusts feed rate.

The GibbsCAM VoluMill Wireframe option is included with each new GibbsCAM milling license and GibbsCAM milling licenses covered by software maintenance.

Machine Simulation

An extension to the GibbsCAM 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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The SolidSurfacer option includes high-level surface and solids modeling capabilities and advanced functionality for machining surfaces and solids. Complex surface and solid functions are made easy with the intuitive GibbsCAM graphical user interface. Use the Advanced 3D with High-Speed Machining component of SolidSurfacer to create a toolpath that is ideal for hard-metal cutting and high-speed machining for smooth surface finishes. Use SolidSurfacer to address the demanding requirements of modeling and machining complex mold, tool, and die.

GibbsCAM Solids data sheet

Extended Surface Modeling Capabilities

Though more and more parts files are provided in solid model format, surfaces still play a key part in their definition, and surface modeling for manufacturing is still a very important capability. SolidSurfacer provides extended surface modeling capabilities to handle surface creation or modification. And its powerful surface modeling functionality is easy to use.

Advanced 3D with High-Speed Machining

Advanced 3D with High-Speed Machining (HSM) expands the 3D surface and solid body machining of SolidSurfacer in many ways:

  • New types of finishing processes
  • Support for 3D material only toolpaths
  • Enhanced entry/exit control
  • Directly machining faceted bodies like imported STL files
  • Automatic core/cavity detection for inside-out or outside-in determination
  • Operation splitting for tool wear and for optimal length out of the holder
  • Automatic filleting of a surface to avoid sharp concave corners
  • Support for batch toolpath generation


Often parts have vertical walls that make them difficult to remove from molds without sliders. With SolidSurfacer, you can apply an amount of draft slightly angling vertical walls.

Automatic Parting Line Generation

You need to separate mold halves at the extents of the part to ensure that the part can be removed readily. Manually determining where the parting line should be can be a very tedious process. With SolidSurfacer, you can generate the correct parting line automatically and then use it to divide the mold halves easily.

Extract/Heal Features (For Core/Cavity or Electrodes)

Often parts include minor features that get in the way when generating toolpaths. You can suppress these features with the SolidSurfacer extract/heal feature capability, which removes the feature’s geometry and heals the surrounding area. You can use the solid, which is generated from the suppressed feature, to create cores or electrodes.

Multiple Offsets

You must consider different types of surfaces when machining: the surface that is actually being machined, the part surfaces not being machined, and any surfaces associated with fixtures. With SolidSurfacer, you can specify the offset, or how closely the tool comes, for each of these surface types. So, you’re in complete control when generating toolpaths.

3-Axis Multi-Surface Machining

Today’s parts include a variety of forms and surfaces. Applying toolpaths across multiple surfaces or over an entire solid is a key machining capability, in addition to pocketing and profiling. With SolidSurfacer, you can create gouge-free, 3-axis toolpaths easily using a variety of machining styles like lace-cut and zig-zag. You have complete control over cut parameters like direction, orientation, step-over amount, and depth. With SolidSurfacer, you can machine multiple surfaces quickly and easily.

3D Projection Machining

Sometimes you want to have direct control of the toolpath over multiple surfaces. You generate the toolpath you want and then you project it onto the surfaces to be machined. The source for the toolpath geometry can be just about anything, including text. SolidSurfacer provides a powerful capability that allows you to project geometry onto surfaces to generate final toolpath geometry.

Radial Milling

The GibbsCAM Rotary Milling option drives one rotary and three linear axes to achieve a 4-axis toolpath. It provides a roughing and a finishing mill process for off-centerline Y-axis rotary machining for control of wall angles and tool engagement. Input is 3D wire-frame geometry extracted from solids or created by other means to drive and orient the tool. Optionally, you can use surfaces to orient the tool and limit toolpath.

Tool orientation control includes cutting with the side or bottom of the tool, using a surface or two curves to control tilt, following one curve at a specified lean angle, or using progressive tool lean. Typically, it segments the toolpath, but it can optimize the toolpath helical motion.

GibbsCAM Multi-Axis Milling data sheet

Polar and Cylindrical Milling

The Polar and Cylindrical Milling option drives one rotary and two linear axes to achieve a 3-axis toolpath. It extends the standard 3-axis milling functions for use on machines with a rotary axis to enable wrapped geometry, cylindrical and polar rotary milling, and rotary repeats. On mills, rotation is typically around the A or B axis, while on mill-turn machines the C-axis motion replaces Y-axis motion. You can apply this C-axis motion to the face of a mill-turn part. The input may be flat or wrapped wireframe geometry.

Wrapped geometry is flat 2D geometry displayed and machined as if wrapped around a cylinder. You can create geometry in flat or wrapped mode and toggle between flat and wrapped representations. With this option, you can apply all 2D mill processes including contour, pocket, and drill to a cylinder. Because the tool is kept on the centerline of rotation, you cannot control wall angles or tool engagement.

GibbsCAM Multi-Axis Milling data sheet

This option also adds the rotary repeat function to milling processes. Output for long, multiple rotations is on a single line of G-code. Post-processed output can support a control’s cylindrical and polar interpolation functions. This option is ideal for parts defined by flat geometry, for rotary part features created by the tool’s shape like simple grooves or pockets that do not need wall control), and for machines without a Y axis.


The GibbsCAM 5-axis option supports simultaneous 4- and 5-axis machining with various tool types. In combination with GibbsCAM MTM, it also supports sophisticated multi-task machines with live tooling on articulated heads. It includes various machining styles and machining strategies for roughing and finishing, with full tool-axis control, plus application-specific functions such as projection, swarf, electrode, impeller, turbine, and cylinder-head machining.

For additional accuracy, the 5-axis option provides collision detection and gouge checking for various tool shapes, with appropriate avoidance options. Toolpath is verified on the fly with the integrated GibbsCAM Cut Part Rendering, while GibbsCAM Machine Simulation provides further verification with a dynamic display of work piece, cutting tools, and all machine-tool components in motion.

GibbsCAM Multi-Axis Milling data sheet

5-Axis Porting

An addition to GibbsCAM 5-Axis Milling, 5-Axis Porting is optimized to simplify machining ports, manifolds, throttle bodies, and any tubular openings that change shape and curvature from end to end. Its specialized interface uses only the settings needed for porting operations, which makes programming easier and faster. Machining strategies include roughing, rest roughing, and spiral and plunge-along finishing. To control excessive machine motion, 5-Axis Porting uses 3-axis machining as far into the port as possible and then automatically transitions to full 5-axis to allow for maximum tool reach.

It calculates all 5-axis motion for smooth and gouge-free toolpaths. Tool tilting is automatic, at optimal angles, with no need to split surfaces or create tool axis control splines.

GibbsCAM Multi-Axis Milling data sheet

It can automatically detect the spine curve through the port and properly align the toolpath. Determin the upper and lower sections of the port automatically, using maximum tool reach, at the midpoint or by a user-specified percent of reach, always ensuring proper toolpath blending between upper and lower sections.

Overall, 5-Axis Porting makes programming easier and faster and generates a cleaner, more efficient toolpath for faster and higher-quality machining.

5-Axis MultiBlade

An addition to GibbsCAM 5-Axis Milling, GibbsCAM 5-Axis MultiBlade is optimized for programming machining centers and multi-tasking machines (MTMs) to make turbomachinery parts. It simplifies machining parts with blades including blisks, belongs, and impellers. Easily select geometry without having to prepare the model with its specialized, condensed interface. Choose from two functionality levels for your type of work or level of specialization.

Level 1

Level 1 includes parts with single splitters and toolpath strategies that include roughing between blades with single splitter support, hub finishing, blade and splitter finishing, and automatic gouge checking on all toolpaths. It includes options for leading- and trailing-edge extension and edge-roll trimming, tilt controls, various intelligent controls for rotating toolpath segments around the part, automatic axis detection, and automatic and user-definable links and clearances.

GibbsCAM Multi-Axis Milling data sheet

Level 2

Level 2 adds support for multiple splitters and sub-splitters; blade fillet machining; tool-axis smoothing; splitter smoothing; additional control for tilt, leading, and trailing edges; toolpath segment sorting; and the ability to define stock for rest milling. Whether toolpath is generated for multi-task machines or machining centers, both levels of 5-Axis MultiBlade use the same post processors as GibbsCAM 5-Axis and the same simulation models in GibbsCAM Machine Simulation.

עיבוד רב תהליכי Multi-Task Machining

Specifically designed to address the CNC programming requirements of complex, multi-task machining (MTM) tools, GibbsCAM MTM gives you powerful programming tools that are easy to learn and use with the ultimate in flexibility.

Considering buying a multi-task machine or wondering if you are making the most of the one you already own? Download the What You Need to Know About Programming MTM Machines white paper to get answers.

Machine-Specific Setup

Multi-task machine tools represent some of the most diverse machine tool configurations available today. With GibbsCAM MTM, your machine tool’s specific configuration is captured by factory-supplied settings so that you are programming all its capabilities accurately. This way you can ensure that you are taking full advantage of your machine tool for maximum productivity.

Multiple Turrets/Spindles

Today’s multi-task machine tools incorporate a wide variety of spindle and turret combinations with no end in sight. A two-spindle, two-turret configuration is fairly common for machines, with more than two spindles or turrets becoming more and more common. GibbsCAM MTM supports an unlimited number of turrets and spindles so you can keep pace with advances in multi-task machines.

Live Tooling Support

Previously, multi-task machine tools were mainly high-end turning centers with two spindles and tool holders that sometimes included a light-use live tooling capability. Though these are still common, multi-task machine tools now incorporate more substantial live-tooling support so that you can perform more extensive milling operations. You can combine GibbsCAM MTM with any of the GibbsCAM milling options to support your multi-task machine tool’s complete range of milling operations.

Swiss-Style Machine Tools

Swiss-style machine tools are becoming extremely popular, especially for ultra-high-precision parts. Like other types of multi-task tools, Swiss-style machine tools have evolved radically and represent some of the most complex MTM configurations available. GibbsCAM MTM supports Swiss-style multi-task machine tools and provides an easy-to-use tool for programming these complex devices. With GibbsCAM MTM, supporting your Swiss-style machine tools is straight forward.

MTM overview

Utility Ops Support

Bar feeders, parts catchers, and sub spindles are just a few of the ancillary devices on a multi-task machine tool that require non-cutting utility operations to control. GibbsCAM MTM supports the entire range of utility operations used by your machine tool so that you have full control all the way to posted output.

Sync Manager

Unlike single cutting tool machine tools, multi-task machine tools apply multiple tools across one or more spindles at the same time, often in a synchronized fashion. Manually coordinating multiple process flows requires understanding many details and interdependencies. The GibbsCAM MTM Sync Manager provides an easy-to-understand, intuitive graphical interface that allows you to focus on optimizing your process. The Sync Manager handles all the underlying complexities for you. Programming multiple processes has never been easier or more efficient.

Integrated Cut Part Rendering

With the complexity of multi-flow, multi-task processes, it is extremely important to verify programs before they become expensive mistakes on your machine tools. The GibbsCAM MTM integrated Cut Part Rendering allows you to verify your programs visually, fully simulating multiple tools cutting at the same time. You can detect gouges and observe your program efficiency so that you can make adjustments to further optimize your program. See it before you machine it.

Post Processors

GibbsCAM Post Processors are developed to maximize the efficiency of your CNC Machine and ensure high quality NC code. GibbsCAM and its worldwide Reseller network has the knowledge and experience to provide fast, personalized technical support to ensure your production is continuous and your productivity is uncompromised.

Reduce cycle time, improve part quality, and increase profitability by maximizing multi-task machine and CAM software investments.

Tombstone Management System

The Tombstone Management System (TMS) was developed specifically to simplify and streamline the multi-part setup, programming, toolpath verification, and post processing for tombstone machining. Within a single, interactive graphic interface, the TMS dialog provides all the options and flexibility required for CNC programmers to specify and modify machining strategies and generate efficient, error-free G-code ready for your machines.

GibbsCAM TMS Datasheet

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GibbsCAM TMS provides:

  • The ability to create a part and fixture combination and have it automatically duplicated in a layout.
  • Various options to locate and arrange parts on a tombstone face automatically.
  • The flexibility to arrange a different part on each face or mix parts on each face.
  • The ability to program parts or faces at different Z levels. 
  • The choice of duplicating an arrangement across all faces or creating different arrangements on each face.
  • The ability to add or clear operations for exceptions on each face like part features or machining operations blocked by adjacent workpieces.
  • The ability to set different safe distances for traversing from part to part and indexing (rotating) from one face to the next.
  • Options for optimizing cycle time by tool, by tool and part, or by tombstone face.
  • Support of subroutines, canned cycles, and B-rotation positions in the G-code output.
  • The ability to generate CNC code in single-part mode to prove setup and machining before running a fully-loaded tombstone.

Optimization is typically dependent on grouping similar or identical operations together to minimize tool changes and rotations of the tombstone. TMS lets the programmer:

  • Group operations by tool to minimize tool changes. Perform machining of part features with a single tool in order and across all parts before making a tool change.
  • Group operations by tool and part to minimize traverses. Complete all operations with a tool on a workpiece before moving to the next workpiece. Or the programmer can choose to have a tool perform a single operation in a group before moving to the next group.
  • Complete all operations on a face before moving to another to minimize tombstone rotation.

TMS provides tools for choosing among these options and automatically sorts the toolpath so that it can be verified and tested. Easily correct any problems by returning to the TMS dialog and making the necessary modification.

By enhancing TMS with GibbsCAM Machine Simulation, the programmer can render and dynamically simulate the entire setup including tombstone, parts, fixtures, tools, tool holders, and all moving machine tool components to test for interference, collision, and cycle time. Simulation also tracks X-Y-Z positions to prevent tools from exceeding a machine’s travel limits.

When the programmer is satisfied with the result, a single click in TMS generates a post-processed G-code program for the entire tombstone of parts.

Required: TMS requires 2.5D Solids or SolidSurfacer and a customized post processor to generate the appropriate G-code.

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