The new release includes a number of items of new and enhanced functionality which focus specifically on the ‘engineering of parts’ processes. Developers are now working on separating Radan into two distinct aspects: traditionally creating NC code to drive CNC machines, and ‘engineering of parts.”’
“Radan isn’t just a CAM system any more. It plays an important role in ensuring sheet metal manufacturers are best placed to run with Industry 4.0.” An example of this is with Radmanager. The system now accepts feedback from the shopfloor regarding the cutting progress. “This improved connection between the shopfloor and logistics operations means the stock management and order processing functions can immediately update the stock control.”
Radquote now looks at all aspects that impact on how much it costs to bend a part, such as how many bends are required, how many turns or flips the operation needs and whether it needs a second operator, to provide an accurate cost calculation. In addition, it calculates the cost of an entire 3D assembly, rather than individual parts. “The user can see a full assembly tree, and the total cost.
“These bending cost calculations – both for individual parts and complete assemblies – and the finegrain information flow between the shopfloor and Radmanager will assist considerably in facilitating the next generation of sheet metal production as part of a connected factory infrastructure.”
Moving on to enhanced CADCAM functions, Radan 2018 R1 takes the increasing popularity in automatic bending into consideration, with the specific innovation of optimising fingerstops. As part of a process of making fingerstops safer, it allows for improved part alignment in the pressbrake, and reduces the number of fingerstop movements required between bends.
In addition, an enhancement to the default views means designers can bring up a front view, side view, or isometric view instantly, in both Radbend and Radan 3D.
The profiling function benefits from six updates. Firstly, hatching, where laser users can now create fine marks to identify parts. Körner says it can be any shape, such as a bar code design, text, or a number, and is simply ‘hatched’ on to the metal with the laser. Enhanced flycutting, where the machine doesn’t stop during an entire operation, reduces cycle times; the lead-in placement for tagging has been optimised; additional support for automatic filleting means users have much greater control over where they are placed…they can be switched on for one part and off for another, and whether they are on internal or external corners. Radan developers have worked closely with plasma cutter manufacturers on additional support for cutting circular holes with higher accuracy on plasma CNC machines. And following the contours of a part when creating offcuts saves more of the material, reducing wastage even further.
A new batch nesting system is described as a “big performance upgrade,” which forecasts show could improve material usage by around 9% over a year. A new algorithm provides a different approach to optimising a range of nests. “The software now looks at the entire nest run and reduces the number of overall sheets instead of focusing on how full each individual sheet is.”
New controls have been added for producing offcuts on punch presses. “Some manufacturers like offcuts at the start of a program; others prefer them at the end. This enhancement means they can decide exactly when the offcut parts will be created.”
Finally, five individual small enhancements combine to improve Radan’s overall CAD/CAM usability:
