As the company’s name implies, they recognized that 5-axis machining would give their new company a competitive advantage and entry into demanding niche markets like Aerospace, Medical, and other challenging high-tech industries. The advantage here once again lies in the fast machining and particular suitability for materials that are difficult to cut.įor more information about hyperMILL 2014.2, check out there company’s web site here.11 years ago in San Diego, California two experienced and motivated entrepreneurs, Steve Grangetto and Chris Taylor co-founded 5th Axis, Inc.
The new cycle is suitable for both roughing and finishing. With 2D plunge milling, another new feature, material is removed solely by plunging a milling tool. This mode is particularly suited to machining large workpieces, as it prevents time-consuming repositioning movements, thereby significantly shortening machining times. Furthermore, it is now possible to select a zigzag mode in hyperMAXX. The machining process is also collision-checked. The greatest advantage of this method is that it protects tools, particularly in materials that are difficult to cut. This includes plunging the milling tool into the material at pre-drilled holes, which saves ‘ramping-in’ of the milling tool at the start of machining. HyperMAXX, the cutting (HPC) module for hyperMILL, was also improved in some areas. Work here has been greatly simplified for CAM programmers. This process is repeated until the required contour is achieved. For example, a longer tool or modified position. To this end, optimal tool selection and positioning once again take place. The rest material areas that are recognized during the collision avoidance are transferred automatically to the subsequent job. The open, deep, steep and flat areas of cavities can be machined in one job with collision avoidance. User benefits include an optimised finish and reduced programming and machining times. The OPEN MIND soft bounding concept is also integrated into this new function, which ensures that the boundaries to adjacent surfaces are calculated more precisely and that sharp outer edges are machined more smoothly. All intermediate levels are offsets of the bottom plane.ģD shape Z-level finishing allows curved bottom surfaces to be referenced. As a result, the milling tool nestles optimally along the boundary edge between the bottom and the wall. A new function for 3D shape Z-level finishing makes it possible to reference curved bottom surfaces, after which the milling paths are aligned. If the bottom surface is curved, the milling result is not optimal, making it necessary to perform a number of rework machining steps. When it comes to Z-level finishing, CAD systems usually simply follow the X and Y coordinates. Let’s look at what’s new in this release. hyperMILL 2014.2 offers a key extension for solid modelling in hyperCAD-S, the CAD part of the system. In addition to a key extension for solid modelling in hyperCAD-S, the CAD part of the system, hyperMILL 2014.2 features a range of improvements for CAD programmers and machining.
The company’s hyperMILL software was touted in market research firm CIMdata’s NC Market Analysis Report 2014 as one of the best CAM systems on the market. OPEN MIND has released the newest version of its CAD/CAM software, hyperMILL 2014.2, which includes several new functions in addition to enhancements to existing functions.