Machine tap with straight flutes and spiral point

NX Precision Taps Product Line
Thread M
Thread M
ISO Metric coarse thread
Profile sketch
Profile sketch
60°
Thread standard
Thread standard
DIN13
Type UNI
Type UNI
Tap for universal applications
Tap material
Tap material
Powder high speed steel
Coating
Coating
Balinit® Hardlube coating (titanium aluminiumnitride + tungsten carbide)
Tap standard
Tap standard
DIN 376
Thread tolerance
Thread tolerance
ISO 2 - 6HX
Chamfer B
Chamfer B
Length 3,5-6 pitch
Cooling method
Cooling method
Internal axial coolant supply with hole outlets in the flutes
Hole type
Hole type
Through hole (thread length L > 1,5xd1)

Catalogue number: 3720NXIKZN

High performance machine tap with straight flute with spiral point with radial cooling, metric, DIN 376, Balinit Hardlube coated, suitable for universal use.

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Select product model

ID Product Price excl. VAT Price incl. VAT Cart
043036246120090 3720NXIKZN :: M12 6HX 147.25 EUR 178.17 EUR
043036246160090 3720NXIKZN :: M16 6HX 199.00 EUR 240.79 EUR
043036246200090 3720NXIKZN :: M20 6HX 297.05 EUR 359.43 EUR

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Use

Machined material Hole type Cutting speed Lubrication Use
Aluminium alloys si content < 10% through hole (thread length L < 1,5xd1) 15-20
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Aluminium alloys si content < 10% through hole (thread length L > 1,5xd1) 15-20
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Aluminium alloys si content > 10% through hole (thread length L < 1,5xd1) 15-20
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Aluminium alloys si content > 10% through hole (thread length L > 1,5xd1) 15-20
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Case hardened steels and nitriding steels up to 1100 N/mm2 through hole (thread length L > 1,5xd1) 10-12
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Case hardened steels and nitriding steels up to 1100 N/mm2 through hole (thread length L < 1,5xd1) 10-12
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Copper alloys (long chipping) through hole (thread length L > 1,5xd1) 12-15
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Copper alloys (long chipping) through hole (thread length L < 1,5xd1) 12-15
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Copper alloys (short chipping) through hole (thread length L > 1,5xd1) 10-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Copper alloys (short chipping) through hole (thread length L < 1,5xd1) 10-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Free cutting steels up to 800 N/mm2 through hole (thread length L < 1,5xd1) 20-25
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Free cutting steels up to 800 N/mm2 through hole (thread length L > 1,5xd1) 20-25
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Grey cast iron through hole (thread length L < 1,5xd1) 15-20
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Grey cast iron blind hole (thread length < 1,5 d1, pilot drilling depth ≥ L+d1) 15-25
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Grey cast iron through hole (thread length L > 1,5xd1) 15-20
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Heat-treated steels up to 1100 N/mm2 through hole (thread length L < 1,5xd1) 10-12
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Heat-treated steels up to 1100 N/mm2 through hole (thread length L > 1,5xd1) 10-12
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Heat-treated steels up to 1400 N/mm2 through hole (thread length L > 1,5xd1) 10-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Heat-treated steels up to 1400 N/mm2 through hole (thread length L < 1,5xd1) 10-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
High-alloyed steels up to 1400 N/mm2 through hole (thread length L < 1,5xd1) 10-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
High-alloyed steels up to 1400 N/mm2 through hole (thread length L > 1,5xd1) 10-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Plain cast steels up to 500 N/mm2 through hole (thread length L > 1,5xd1) 15-30
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Plain cast steels up to 500 N/mm2 through hole (thread length L < 1,5xd1) 15-30
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Plain cast steels up to 800 N/mm2 through hole (thread length L > 1,5xd1) 20-25
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Plain cast steels up to 800 N/mm2 through hole (thread length L < 1,5xd1) 20-25
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Spheroidal graphite cast iron and malleable cast iron through hole (thread length L < 1,5xd1) 15-20
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Spheroidal graphite cast iron and malleable cast iron through hole (thread length L > 1,5xd1) 15-20
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Stainless steels and heat resisting steels with strength 450 - 800 N/mm2 through hole (thread length L < 1,5xd1) 12-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Stainless steels and heat resisting steels with strength 450 - 800 N/mm2 through hole (thread length L > 1,5xd1) 12-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Stainless steels and heat resisting steels with strength 600 - 1000 N/mm2 through hole (thread length L > 1,5xd1) 12-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Stainless steels and heat resisting steels with strength 600 - 1000 N/mm2 through hole (thread length L < 1,5xd1) 12-15
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Structural steels and heat-treated steels up to 800 N/mm2 through hole (thread length L > 1,5xd1) 20-25
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Structural steels and heat-treated steels up to 800 N/mm2 through hole (thread length L < 1,5xd1) 20-25
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Structural steels up to 500 N/mm2 through hole (thread length L < 1,5xd1) 15-30
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Structural steels up to 500 N/mm2 through hole (thread length L > 1,5xd1) 15-30
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Tool steels up to 1100 N/mm2 through hole (thread length L < 1,5xd1) 10-12
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Tool steels up to 1100 N/mm2 through hole (thread length L > 1,5xd1) 10-12
O/E
Lubrication
Cutting Oil/Emulsion
Recommended use
Use
Recommended use
Unalloyed aluminium through hole (thread length L < 1,5xd1) 15-35
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Unalloyed aluminium through hole (thread length L > 1,5xd1) 15-35
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Unalloyed copper through hole (thread length L < 1,5xd1) 15-30
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Unalloyed copper through hole (thread length L > 1,5xd1) 15-30
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Zinc and zinc alloys through hole (thread length L > 1,5xd1) 12-15
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use
Zinc and zinc alloys through hole (thread length L < 1,5xd1) 12-15
O/E
Lubrication
Cutting Oil/Emulsion
Possible use
Use
Possible use