MODULEWORKS announced the 2025.04 release of its software components for digital manufacturing, which includes new and enhanced features designed to enhance process safety, improve toolpath generation efficiency, and increase part quality.
User-defined edge sequence – With automatic sorting, it may be difficult to meet the deburring requirements of each part because the predefined order does not always match the specific needs of the job. ModuleWorks 2025.04 introduces a practical alternative to automatic sorting: Users can preserve the input order of the curves, and the resulting toolpath is sorted accordingly. This gives users more flexibility, enabling them to machine edges in their preferred sequence to improve overall machining efficiency and precision.
Automatic machining direction – Previously, determining the appropriate machining direction for 3- and 4-axis toolpaths often led to suboptimal ordering, resulting in discontinuous toolpaths.
ModuleWorks 2025.04 contains a new option called 'automatic machining direction’ that takes the contour direction into account to ensure optimal ordering. This makes deburring toolpaths more user-friendly while also reducing the machining cycle time.
Edge finishing – Users often struggle to prevent the tool from rubbing against the leading edge due to tilting and machine motion. Because the edge is thin, this may cause it to overheat.
ModuleWorks 2025.04 solves this problem by applying an extension, leaving offset material to be removed later. This strategy drives the tool longitudinally along the edge, effectively removing the extra material leftover from the previous operation without causing damage to the thin leading edge. This enhanced toolpath allows the part to be finished with the required surface quality and material integrity.
Corner peg removal for constant cusp – Generating a consistent surface finish in corner regions is often hampered by pattern collapse and corner smoothing.
The ModuleWorks 2025.04 release introduces an intelligent, Corner Peg Removal solution that tackles problematic cusps where the pattern collapses or corner smoothing shifts the toolpath. This new approach automatically adds strategic peg loops in corner areas, ensuring smooth, consistent results and minimizing the need for manual polishing.
GPU-accelerated collision checking – Simulating material removal while checking for potential tool collisions with the in-process stock is computationally intensive, causing the simulation to slow down in complex machining scenarios.
The ModuleWorks 2025.04 release offers enhanced simulation capabilities through GPU-accelerated simulation, which can now be used to optimize both material removal and collision checking. This feature increases the simulation speed, particularly for large-scale machining operations, while ensuring precise collision detection.
Learn more at www.moduleworks.com