Basic Information
Model NO.
Fine-v Wheel 100/17.5/20
Advantages
High Hardness & Wear Resistance
Strength
High Thermal Conductivity
Specification
PC100/17/20
Production Capacity
500 Piece/Pieces Per Month
Product Description
Exceptional Features:
- ★ Superior Hardness and Wear Resistance
- ★ Excellent Thermal Conductivity
- ★ Unmatched Precision and Sharpness
- ★ Minimal Friction Coefficient
- ★ Prolonged Service Life
- ★ Remarkable Cost-Effectiveness
In conclusion, diamond grinding wheels are esteemed for their superior hardness, excellent thermal conductivity, unmatched precision, long-lasting durability, and extensive versatility. These attributes make them indispensable for the precise and efficient grinding of hard and brittle materials.
Frequently Asked Questions
What materials are suitable for this diamond grinding wheel?
These diamond grinding wheels are specifically designed for the precise and efficient grinding of hard and brittle materials, including various lens types and optical components.
What is the advantage of the metal bonding agent used?
The metal bond provides superior strength and durability, ensuring the wheel maintains its shape and precision even under high-stress industrial applications.
How does high thermal conductivity benefit the grinding process?
High thermal conductivity helps in rapid heat dissipation during the grinding process, preventing damage to both the tool and the workpiece while extending service life.
What is the monthly production capacity for this model?
Our current production capacity for the Fine-v Wheel 100/17.5/20 model is approximately 500 pieces per month.
What are the primary features that contribute to its cost-effectiveness?
Its prolonged service life, minimal friction coefficient, and unmatched precision reduce the need for frequent replacements and maintenance, making it highly cost-effective.
Does the product come with standard packaging for transport?
Yes, all products are securely packed in standard cartons to ensure safe delivery and protection against damage during transit.
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