KYOCERA SGS Precision Tools Group
KYOCERA SGS Precision Tools Group
Automotive machining demands more than speed, it demands accuracy you can trust. From EV motors to transmission cases, our tooling is built to deliver tighter tolerances, longer runs, and smoother finishes. The result? Fewer tool changes, more uptime, and components that keep the world in motion.
Large castings require significant material removal with consistent accuracy. Deep cavities and intersecting features demand rigid tooling and effective chip evacuation.
Complex port geometries and thin walls create risks of vibration and deflection. Stable cutters with efficient ramping and plunging capability are essential.
Hardened materials and interrupted cuts require tooling with high wear resistance. Maintaining surface finish and dimensional accuracy is critical under heavy loads.
Long, slender profiles present rigidity challenges. Tools must balance cutting forces to avoid deflection while holding tight tolerances across multiple features.
Tight bore tolerances and high-strength materials demand excellent tool stability. Precision finishing operations are necessary to ensure durability in high-stress applications.
Heat-resistant alloys and thin-wall sections increase cutting forces and heat buildup. Tooling must control chatter while maintaining edge integrity at elevated temperatures.
Multiple intersecting bores require stable drilling and milling strategies. Chip control and repeatability are essential in these intricate components.
Hard machining applications demand tool materials and coatings that resist wear. Precision profiling is needed to achieve consistent tooth geometry.
Long machining lengths introduce stability concerns. Rigid setups and optimized cutting geometries reduce vibration and maintain concentricity.
Large diameters and hardened steels require cutters that minimize tool pressure. Surface finish is critical for proper belt contact and performance.
Cast iron creates abrasive wear on tooling. High-efficiency milling and turning solutions are needed to maintain surface flatness and repeatability.
Aluminum alloys present chatter and deflection challenges in thin-wall areas. Variable geometry tools improve stability and finish quality.
Complex internal geometries and thin-walled sections require versatile tooling. Rigid cutters minimize chatter and ensure dimensional accuracy.
Hardened steels and tight spherical profiles push tooling limits. Precision machining strategies are essential for smooth rotational performance.
Thin-walled aluminum structures create vibration risk under high tool pressure. Effective flute design and stable cutting forces improve surface integrity.
Large aluminum components demand stable finishing solutions to prevent chatter. Wiper geometries help maintain flatness across wide surfaces.
Tough materials and long axial dimensions require rigid support and stable tooling. Wear resistance and accuracy are critical for smooth operation.
Intricate cavities and multiple intersecting features increase machining complexity. Stable tool engagement and chip evacuation are vital for maintaining accuracy.
From engine blocks to EV battery trays, every automotive component demands accuracy, repeatability, and efficiency. That’s why our specialists work side by side with manufacturers to identify the right tooling and strategies for each job.
Whether you’re machining hardened steels, lightweight aluminum, or heat-resistant alloys, Kyocera offers complete solutions, from solid round and indexable tooling to advanced PVD hardcoatings that extend tool life and performance.
With Kyocera, you’re not just getting tools. You’re gaining a partner committed to reducing downtime, improving throughput, and meeting the uncompromising standards of modern automotive manufacturing.
Fill out the form to connect with a specialist who’s ready to help you take on your toughest machining challenges.
