Hole Dozer Milwaukee Bi-Metal Crown

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris

• State-of-the-art design for maximum productivity

• Tooth Design - Variable 4∕6 TPI design with

A positive angle of 10° offers the following advantages: Cut more

Fast and aggressive. Improved heat dissipation during cutting

It ensures that the teeth stay sharp longer. throats

Deeper and more curved, they allow better evacuation and prevent

clogging and overheating. The specially shaped angle of the

Teeth tend to snag less on thin materials. Teeth

They are arranged alternately to minimize jams and

Friction. Requires less feed pressure – Achieved

Thanks to the combination of the aggressive geometry of the teeth and the

Good chip evacuation, which allows less force to be applied during

drilling

• Crown Body - The steel body is 1.27mm thick and

It is rigid to retain its shape, but it also has some elasticity.

Effective cutting depth of 41mm

• Diagonal grooves help remove debris