1/8" x 2" Round Ground High Polished
Chamfer one end 10% Cobalt Grade 9008
Elevate your machining precision with the 1/8" x 2", Round, Ground, High Polished, Chamfer One End, Grade 9008 carbide rod from Castlebar Corporation. This premium tungsten carbide rod is meticulously designed to meet the highest standards of quality and performance. Crafted for excellence, it’s the perfect addition to your metal cutting tools and machining arsenal.
Features
- Precision Engineering: With a diameter of 0.125" and a length of 2", the 1/8" x 2", Round, Ground, High Polished, Chamfer One End, Grade 9008 is manufactured to a tolerance of +0/-0.00031", ensuring exact dimensions for impeccable results.
- Exceptional Hardness: Featuring a hardness rating of 92.0 HRa and a TRS of 3500 MPa, this rod offers outstanding wear resistance and durability, making it ideal for rigorous tasks.
- High-Quality Finish: The high-polished surface finish (0.1 μm Max Ra) minimizes friction and improves the efficiency of your cutting tools, ensuring smooth and accurate performance.
- Durable Material: Made from tungsten carbide with 10% cobalt, the rod combines strength with flexibility, providing resilience against heavy-duty use and challenging conditions.
The 1/8" x 2", Round, Ground, High Polished, Chamfer One End, Grade 9008 carbide rod is engineered to enhance your machining efficiency and precision. Its high polish and precise chamfering streamline your workflow, making it an invaluable asset for machine shops, factories, and industrial operations. By choosing this Grade 9008 tungsten carbide rod from Castlebar Corporation, you invest in superior quality and performance, reducing downtime and boosting productivity in your machining processes.
Diameter: 1/8"
Diameter (Decimal): 0.125"
h6 Tolerance: +0/-0.00031"
Length: 2"
Length (Decimal): 2.00"
Tolerance: +0.40/-0"
Chamfer: 0.020(+/-0.008)"
Weight: 0.0129 lbs.
Material: Tungsten Carbide
Grain Size: Sub-Micron
Grade: 9008
Hardness: 92.0 HRa
TRS (MPa): 3500
Surface Finish: High Polished(0.1 μm Max Ra)