Nano fine particle super hard alloy Fujiroy FS06
Bending strength × Edge retention × Wear resistance
\ Features of FS06 / ◆ Excellent Wear Resistance With a hardness of 95.0HRA, the wear at the cutting edge is suppressed compared to conventional ultra-fine carbide, leading to an expected longer lifespan. ◆ Reduced Burrs and Edge Chipping Due to its excellent wear resistance even after prolonged use, the tool shape is maintained for a long time, allowing for a reduction in burrs and edge chipping, making it suitable for precision molding tools. ◆ High Strength As the bonding phase is reduced to increase hardness in carbide, the fracture resistance typically decreases. However, FS06 maintains a fracture resistance of 4000MPa, covering strength levels comparable to conventional ultra-fine carbide despite its very high hardness. ◆ Excellent Edge Sharpness Due to the nano-sized WC alloy, a superior sharp edge can be achieved on the tool cutting edge through grinding and finishing processes of #1000 or higher. For more details, please download the PDF or contact us!
basic information
■Characteristic Values - Hardness 95.0 HRA, top-class wear resistance in carbide - Flexural strength 4000 MPa ■Features - Nano-particle ultra-hard alloy that surpasses ultra-fine and super ultra-fine alloys. - Due to its high hardness, it can improve the lifespan affected by wear at the cutting edge. ■Examples of Use - Cutting tools - Cutting blades - Die for amorphous alloy foil, punching die - Precision punching die - Lead frame die - Die for HDD components - Small diameter (several 10 μm) piercing punches - Micro gear embedding die ■Maximum Sintered Dimensions - 400×20×t40 - 300×60×t60 - φ150×60 *For dimensions larger than those listed above, please inquire.
Price information
It varies depending on the dimensions and shape. Please contact us.
Delivery Time
OTHER
Applications/Examples of results
- Cutting tools - Cutting blades - Die for amorphous alloy foil - Precision die - Lead frame die - Die for HDD components - Small diameter (several tens of μm) piercing punch - Micro gear embedding die
