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INDUSTRIAL CUTTING BLADES
Our advanced blade materials combine superior corrosion resistance with outstanding edge retention, allowing for faster, longer-lasting cutting performance that increases production efficiency and lowers production expenses.
FEATURED MATERIALS
420
420 stainless steel is a martensitic stainless steel known for its high hardness, wear resistance, and moderate corrosion resistance.
HOT WORK STEELS
To ensure peak performance under elevated temperatures or during fluctuating heat loads, our low-carbon hot work steels are engineered to deliver optimal strength and hardness for demanding industrial processes.
FEATURED MATERIALS
H13
H13 (AISI/SAE H13, DIN 1.2344) is a chromium-molybdenum-vanadium hot-work tool steel optimized for additive manufacturing (AM) and powder metallurgy applications, delivering exceptional thermal fatigue resistance, high-temperature hardness, and wear performance in demanding tooling and industrial environments.
Parts Under Extreme Conditions
As operational severity increases and maintenance schedules lengthen, our material expertise supports upgrading to premium grades that exhibit superior corrosion performance under extreme conditions.
FEATURED MATERIALS
INCONEL 625
This advanced nickel-based alloy leverages solid-solution strengthening mechanisms to achieve an exceptional combination of high tensile strength and impact toughness, ensuring reliable performance under both static and dynamic loading conditions. Engineered for critical applications, the material demonstrates superior fatigue resistance even in aggressive environments.
INCOLOY 825
Nickel-based alloy demonstrates exceptional resistance to a wide range of aggressive environments and exhibit superior immunity to chloride-ion stress-corrosion cracking.
MEASUREMENT SYSTEMS
Our engineered solutions deliver microscale material uniformity, sub-ppm/°C thermal stability, and decadal-scale dimensional invariance to safeguard the precision of mission-critical measurement systems, ensuring uncompromised performance in aerospace metrology, semiconductor lithography, and scientific instrumentation.
FEATURED MATERIALS
INVAR 36
A 36% nickel-iron alloy with a rate of thermal expansion approximately one-tenth that of carbon steel at temperatures up to 400°F (204°C). This alloy is used for applications where dimensional changes due to temperature variation must be minimized or in conjunction with high expansion alloys in applications where a motion is desired when the temperature changes.
SUPER INVAR 32-5
Super Invar 32-5 (Fe-32Ni-5Co) is an ultra-low thermal expansion alloy engineered for applications demanding nanoscale dimensional stability across extreme temperature gradients, combining the near-zero CTE (Coefficient of Thermal Expansion) of traditional Invar with enhanced mechanical robustness and environmental resistance.
PROTOTYPE&MOLD
FEATURED MATERIALS
Martensitic Stainless Steels 420
High hardness (up to 58 HRC after heat treatment) for wear-resistant molds.
Used in plastic injection molds requiring polished surfaces.
Austenitic Stainless Steels (316L, 304L)
Superior corrosion resistance for molds exposed to chemicals or marine environments.
Common in food-grade or pharmaceutical molding applications.
XM-7
XM-7 is a specialized 3D printing powder material developed by us designed for use in the production of molds and rapid prototyping. Primarily targeting applications in shoemaking molds, sample boards, and industrial tooling, XM-7 combines enhanced mechanical properties with advanced additive manufacturing capabilities.
Process Advantages
· Electrolytic surface treatment compatibility: Facilitates precise removal of burrs and supports intricate surface finishing, ideal for detailed mold designs.
· Electroplating ready: Enables post-processing treatments to improve surface durability and aesthetics.