Iscar Quick-Change System Boosts Machining Stability
PMTS 2025: The NeoSwiss modular quick-change system’s clamping mechanism provides high repeatability, maintaining a position accuracy of ±0.0008" during head replacements.
Iscar showcases its modular quick-change head system specifically designed for Swiss-type machines. This system is said to cater to a variety of applications, including turning, grooving, parting and threading. The NeoSwiss modular quick-change system’s clamping mechanism provides high repeatability, maintaining a position accuracy of ±0.0008" during head replacements.
The rotary wedge mechanism enhances the clamping force between the head and the shank, which boosts machining stability. This stability reduces harmonics, enabling users to operate at higher parameters while extending tool life, leading to increased productivity.
Additionally, the NeoSwiss system accommodates both X- and Y-axis heads on the same shank. According to Iscar, this can improve surface quality by reducing tool bending and vibration under high machining conditions as well as providing improved chip control.
Additionally, Iscar’s tools feature coolant ports with 2,000-psi capacity, enhancing chip control and extending tool life. The use of Computational Fluid Dynamics (CFD) technology optimizes coolant flow, providing consistent performance while minimizing pressure drops.
Related Content
-
Repeatability and Rigidity Are Key for Quick-Change Swiss Tooling
A rotary wedge clamping system is said to enable this two-piece, modular tooling system for Swiss-types to offer the performance of a solid tool.
-
Producing Micro Screws for the Watch Industry
Cutting tools play a key role in machining tiny screws on Swiss-type lathes for this Switzerland-based watch manufacturer.
-
Data Matrix Codes Offer Cutting Tool Traceability
A company’s quest to discover errors in a manufacturing process has led to printing data matrix codes on its cutting tools that provide a wealth of information for both the user and this cutting tool manufacturer.
