Chipping geometry:L-F

Finishing 

1.Lead chipbreaker controls chip flow.

2.Sharp cutting edge gives a good surface finish.

Overview

Introducing the CCGH060204L-F VP15TF Coated Carbide Inserts, expertly engineered for high-precision CNC machining. Featuring an 80° rhombic shape and L-F chipping geometry, these inserts offer superior chip flow management and an excellent surface finish. Designed for use in demanding applications such as heat-resistant and titanium alloys, they excel in providing stability and durability.

Features & Specifications

• Designation: CCGH060204L-F VP15TF
• Material: Coated Carbide
• Shape: Rhombic, 80°
• Chipping Geometry: L-F
• Corner Radius: 0.4mm
• Insert Thickness: 2.38mm
• Inscribed Circle Diameter: 6.35mm
• Clearance Angle Major: 7°
• Cutting Applications: Steel:Unstable Cutting ,Stainless Steel:Unstable Cutting ,Cast Iron:Unstable Cutting ,Heat-resistant Alloy, Titanium Alloy:Unstable Cutting
  

Application

These inserts are ideal for CNC lathes and machine tools, offering precision and high-quality finishing in various machining tasks. They are specifically designed for controlled environments where stable cutting is achieved.

Advantages

• Superior Finishing: Sharp cutting edges and lead chipbreaker ensure a high-quality surface finish.
• Efficient Chip Control: Advanced geometry and chipbreaker technology manage chip flow effectively.
• Durability: Robust construction withstands rigorous machining conditions.
• Precision: 80° rhombic design enhances cutting accuracy and performance.
• Versatile Use: Suitable for diverse CNC lathe and machine tool applications.

CCGH060204L-F VP15TF Precision Carbide Inserts – Design for CNC Lathe CCGH 060204 L-F VP15TF

• Precision Cutting with Coated Inserts: 80° Rhombic Design for Superior Performance

• Enhanced Chip Control: L-F Geometry for Efficient Machining

• Coated Carbide Inserts for Heat-Resistant and Titanium Alloys

• Sharp Cutting Edge for High-Quality Surface Finishes

• Lead Chipbreaker for Effective Chip Flow Management

• Robust Coated Material for Extended Tool Life

5-Point Description

1. Coated Carbide Material: Enhances durability and wear resistance for challenging materials.
2. 80° Rhombic Shape: Provides precision and stability for accurate cutting tasks.
3. L-F Chipping Geometry: Optimizes chip flow and reduces cutting forces.
4. Sharp Cutting Edge: Ensures high-quality surface finishes and minimal post-processing.
5. Lead Chipbreaker: Manages chip flow effectively, improving overall machining efficiency.