Hypernova Iridescent Titanium 63mm Conical Burrs for VS6 Grinder

US$ 129.00

The Hypernova Iridescent Titanium 63mm Conical Burrs offer the perfect balance between high clarity and body. These burrs are suitable for all roasting profiles, delivering clean, juicy, and sweet espresso shots with medium body and filter coffee that balances enjoyable acidity, high clarity, and sweetness.

Features:

• Base Material: Crafted from 440 Stainless Steel with an edge hardness of HRC65

• Durability & Heat Resistance: The Titanium coating significantly increases durability and heat resistance. The burrs stay cooler during grinding, extending the sharpness and lifespan of the cutting edge.

• Improved Particle Distribution: Enhanced top-end range for finer particle sizes, offering a balanced profile with improved consistency compared to the standard stainless steel burr set.

• Grind Speed & Consistency: Slightly slower grind speed due to the smoother cutting edge surface post-treatment, but with a higher consistency rate over the total dose. This results in a consistent and precise grind for both espresso and filter coffee.

SUPERNOVA BURR SET

• Improved top end range for espresso particle distribution at finer sizes.

DURABILITY & HEAT SINKING

The titanium coated burrs will have an increase in durability and also heat resistance. The burrs will stay cooler on the cutting edge during grinding and as a result this will impact the overall durability and sharpness of the cutting edge.

GRIND SPEED AND CONSISTENCY

The grind speed of the titanium coated burr is slightly slower than that of the stainless steel burr type. The reason for this is the slightly smoother surface of the cutting edge material after treatment as well as the added elements described above. As a result of this the grinding speed can be viewed as slower grinding burr but with a higher consistency rate over the total dose.

PARTICLE DISTRIBUTION

The grinding range of the titanium coated burr vs the regular stainless steel will be improved at the top end of finer particle sizes.