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Taps / Cold forming taps
Taps / Cold forming taps selection
NORIS-STABIL machine tap for through hole threads up to 4 x D. Due to the special geometry of the STABIL- flutes, the chips are effectively evacuated ahead of the tap avoiding the possibility of chip-packing.

All our products are available as inch-versions.

STABIL UNI 6560, HSSE

  • For almost all materials
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL UNI 6580, HSSE

  • For almost all materials
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL UNI 6410, HSSE

  • For almost all materials
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL UNI 6590, HSSE

  • For almost all materials
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL ST 6080, HSSE

  • For steels with good machining capacity
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL ST 6090, HSSE

  • For steels with good machining capacity
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL ST 6190, HSSE

  • For steels with good machining capacity
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL ST 6160, HSSE

  • For steels with good machining capacity
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL VG 6532, HSSE

  • For heat treated and heat resistant steels up to 1100 N/mm²
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL VG 6092, HSSE

  • For heat treated and heat resistant steels up to 1100 N/mm²
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL HR 6533, HSSPS

  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL VA 6535, HSSE

  • For stainless and acid proof steels
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL NW 6571, HSSE

  • For nonferrous metals
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL SOFT 657S, HSSE

  • For soft materials
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL TI 6084, HSSPS

  • For Titanium and Titanium alloy
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF

STABIL TI 6094, HSSPS

  • For Titanium and Titanium alloy
  • To be suited for through hole threads
  • Thread depth up to 4 x D
  • Available chamfer form B
Hole type
  • For almost all materials
  • For cast iron (GJL, GJS)
  • For Titanium and Titanium alloy
  • Interrupted threads reduce friction. With clamping material, the cutting capacity is improved.
  • Taps for CNC lathes
  • For steels with good machining capacity
  • For cast iron (GJL, GJS, GJV)
  • For Inconel 718
  • For sheet metal components
  • Tools with double total length L1 for the manufacture of threads at points of difficult access.
  • For heat treated and heat resistant steels up to 1100 N/mm²
  • For nonferrous metals
  • For hardened steel and hard castings up to 55 HRc
  • Optimized tools for the synchronous CNC machining with minimum length compensation chuck.
  • Taps with over length and extra long grooves for the manufacture of deep and low based threads.
  • For highly resistant and heat resistant steels up to 1400 N/mm²
  • For soft materials
  • Optimized tools for the dry machining or the use of ninimum quantity lubrification (MMS).
  • Cold forming tap design with lubricating grooves. To assure the lubricant supply with deep threads
  • For tapping by hand in stainless, heat resistant and heat-treated steels up to 1100 N/mm²
  • For Ampco alloys
  • Optimized tools for the synchronous CNC machining without compensation chuck.
  • Tools with internal coolant bore to assure the coolant supply and to support the chip discharge/tools with coolant bore and radial outlet in the grooves are named mKBR.
  • For tapping by hand in high strength steel types, Wolfram, hard castings and ferro-titanite up to 1400 N/mm² or 44 HRc
  • For Magnesium alloys
  • Threadforming geometry for almost all materials
  • Conically stepped guide thread. At the manufacture of deep and low based threads tooth breakage by clogged chips is avoided.
  • For stainless and acid proof steels
  • Für For short chipping brass
  • Cold forming tap for machining specific material groups
  • Optimized tools for high-speed machining for coutting speeds up to 100 m/min.
  • Data sheet: PDF
  • Catalogue download: PDF