Would you like to enhance your skills and become more productive with SURFCAM? Click Here to see the SURFCAM Training Calendar to find the next training session near you!

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Did you know?

SURFCAM's SolidWorks associativity enables users to directly open native SolidWorks files, eliminating the translation process.

SURFCAM automatically recognizes any design revisions in the solid model and regenerates only affected toolpaths. Surfware is proud to be a SolidWorks Solutions Partner.

Dear SURFCAM Customer,

This has been an exciting time for Surfware. In late August, the lawsuit filed by Surfware, Inc. against Celeritive Technologies was settled before going to trial. Under the terms of the settlement, Celeritive has licensed certain portions of Surfware's proprietary technology. However the most important claims of Surfware's patent, as implemented in the award-winning TrueMill, were not licensed to Celeritive. This means that only Surfware's TrueMill technology implements Engagement Milling.

By keeping the tool's engagement limited by a user defined value across the entire toolpath, TrueMill reduces the heat generated and extends the tool life by at least a factor of two. This allows for deeper cuts, higher (and constant) feedrates, and an overall higher MRR (material removal rate) than any other CAM system or toolpath on the market today. If you have not already seen it, click here to see how TrueMill allows machinists to cut titanium as easily as aluminum.

Everybody here at Surfware is committed to offering a high quality product. In the coming months, look for the TrueMill Challenge and the next exciting release, SURFCAM V5!

With Best Regards,
Alan Diehl
CEO and Board Chairman

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The Benefits of Multi-Axis Machining Strategies
by Josh Lucas, SURFCAM Applications Engineer

In today's highly competitive machining environment even the slightest advantage over the
competition can mean the difference between success and failure. Adding 4 & 5 Axis simultaneous machining capabilities to your shop can give you an advantage that is anything but slight. Simultaneous multi-axis machining has a wide range of benefits, from cutting complex multi-axis parts in a single setup to the ability to use shorter tooling, allowing for increased cutting speeds and extended tool life. As you will see here the benefits are great and in many cases can easily justify the costs of implementing such capabilities.

Probably the single largest advantage to simultaneous 4 & 5 Axis machining is the ability to cut complex multi-axis parts in a single setup. By eliminating multiple setups you also eliminate a number of costly and time consuming steps that would normally be required using traditional machining strategies. Fewer setups means less time spent programming, less operator time at the machine and far less money spent on specialized tooling and fixturing. This can be extremely beneficial when it comes to the simple task of drilling holes. Many times additional fixturing is required solely for the purpose of drilling a series of holes with different axial orientations, even when the part itself can be easily machined from a single setup. Another notable advantage of reducing the number of setups is greater part accuracy and consistency. Limiting the number of times that a part must be repositioned during the manufacturing process greatly reduces the risk of human error and helps to ensure the highest level of repeatability.

Often times when using traditional 3-Axis machining strategies you are forced to do the majority of your cutting with the tip of the tool, when using a ball mill this can be less than desirable. With 4 & 5 Axis simultaneous milling you have the ability to specify the lead and/or side angle of your cutter which can have a significant effect on its overall performance. By simply adjusting the side angle of the tool and moving the contact point further up the radius you can increase the effective surface speed at the contact point, allowing for greater feed rates and more efficient material removal. The opposite of this is also true when cutting flat surfaces that are off axis. In a 3-Axis mill these flat areas would have to be surfaced with a ball mill or repositioned in another setup to be cut effectively. With 4 & 5 axis these surfaces can be addressed with a standard flat bottom end mill, saving machine time and producing a better finished product.

Many complex parts and molds contain features that when ran in a 3-Axis machine require the use of very long tools which is never a desirable scenario. The ideal situation is
to have a tool that is just long enough to effectively cut your part so that you avoid sacrificing rigidity on a tool that is longer than it needs to be. 4 & 5 axis machining enables the use of shorter tools by allowing you to orient the work to the tool in such a way that provides the greatest amount of clearance. This can be extremely advantageous in deep cavities where the ability to tilt the part 30 or 40 degrees can significantly reduce the length of the tool required to complete the job, resulting in higher federates, longer tool life and superior surface finish.

The advantages of 4 & 5 Axis machining are vast. The ability to manufacture complex parts with less programming and setup costs while at the same time producing a product of superior quality can really help you gain the advantage needed in today's manufacturing environment.

SURFCAM offers true simultaneous 4- and 5-axis machining, full visualization and verification. This enables the NC programmer to gain precise control over every aspect of multi-axis machining, ensuring safe tool motion in the most challenging applications. 4/5-Axis provides support for all standard tools with collision checking, avoidance, toolpath containment and more.