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In high-performance transmissions, weight is the enemy and durability is the constraint. Traditional steels like AISI 9310 or Pyrowear® 53 have limits.
Layrr Materials Ferrium C64 is the solution for the "lightweighting" era. It is a high-strength, high-hardness steel designed specifically to replace standard gear steels. By offering a significantly higher surface hardness and core strength, it allows engineers to downsize gears and shafts without sacrificing load capacity. If you are designing the next generation of rotorcraft transmissions or high-performance actuators, this is the powder that enables smaller, lighter gearboxes.
Ferrium C64 is a chemically designed material utilizing efficient nanoscale M2C carbide strengthening.
Unlike traditional steels that rely on large carbides (which can act as stress risers), C64 relies on a fine dispersion of carbides within a martensitic matrix. This architecture delivers:
Extreme Surface Hardness: Capable of achieving 62–64 HRC after carburizing, providing superior resistance to surface contact fatigue (pitting).
High Tempering Temperature: It retains its properties up to ~482°C (900°F). This provides a massive safety margin for "oil-out" scenarios where gearboxes run dry and hot.
Core Toughness: Maintains high fracture toughness in the core, preventing catastrophic tooth breakage under shock loads.
Printing gears is one of the hardest challenges in additive manufacturing. The powder quality determines the fatigue life.
Inclusion Control: Gear fatigue life is dictated by cleanliness. We supply VIM/VAR grade powder precursors to ensure minimal non-metallic inclusions.
Carburizing Efficiency: C64 is designed for Low-Pressure Vacuum Carburizing (LPC). Because the oxide layer is minimal and the chemistry is tuned for high hardenability, the heat treatment process is cleaner and more predictable than traditional gas carburizing.
Dimensional Stability: The alloy exhibits very low distortion during the quench phase, critical for maintaining the complex tolerances of printed helical or herringbone gears.
This material is restricted to applications where failure is not an option and weight savings are premium:
Rotorcraft Transmissions: Main rotor shafts and gears where reducing weight increases payload.
Motorsport: F1 and high-end racing gearboxes requiring maximum power transfer in minimal packaging.
Aerospace Actuators: High-lift devices and flap actuators.
Heavy Industry: Drive shafts for portable, high-power tools.
Layrr Technical Note:
Ferrium C64 is a secondary hardening steel. To achieve the stated properties, it requires a solution treatment, a sub-zero treatment (to eliminate retained austenite), and a tempering cycle. For surface hardening, vacuum carburizing is highly recommended over gas carburizing to prevent intergranular oxidation.
Order by 2PM to get delivered next working day! We use 24 hours service with carriers in most cases so that you can get your order delivered on time.
There is €4.99 charge for delivery under €50 Orders. Additional charges will be imposed by our couriers for delivery to remote area, a surcharge may be levied to cover carriage to these areas.
Your product is covered by a 12 month Warranty or more if you opted for the extended warranty. Make sure you register your product.
