HSCo Multi Performance thread former DIN 2174 - THRFORM-HSCO-DIN2174-MULTI-PERFM-M5

HSCo Multi Performance thread former DIN 2174 - THRFORM-HSCO-DIN2174-MULTI-PERFM-M5 - 1

HSCo Multi Performance thread former DIN 2174

Name: HSCo Multi Performance thread former DIN 2174
Brand: Würth
SKU: 0658200500

Thread former HSCo multi performance
THRFORM-HSCO-DIN2174-MULTI-PERFM-M5
ZEBRA

Art.-no. 0658200500

EAN 4062856142217

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HSCo Multi Performance thread former DIN 2174

Art.-no. 0658200500

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The high-performance thread former with oil grooves (from dia. M3) for versatile use on almost all power tools (now also on pillar and upright drills) and on almost all materials, such as conventional steels, stainless steels (e.g. V2A, V4A), titanium, heat-resistant and high-strength steels up to 1,400 N/mm². Also suitable for non-ferrous metals such as aluminium, aluminium alloys and bronze.

The first thread former not solely for conventional use on CNC machining centres and lathes owing to its newly developed shank generation, but bringing the advantages of thread forming over thread cutting to application on box column and pillar drills for the first time (up to dia. M12).

One tool for through hole and blind hole threads

No chipping issues due to cold forming of threads

Thread depths up to 4xD can be achieved

Improved thread surface quality

Higher strength in the thread

Significantly longer service life

Completely reliable threads

Newly developed shank generation with a combination of polygonal and straight shank (from dia. M4-M12)

The polygonal shank prevents spinning in the drill chuck, ensures optimal power transmission and protects the drill chuck from damage.

Newly developed tool geometry for versatile use in almost all materials

TiN coating

The coating, which is the most popular coating on thread formers due to its universal application area, ensures a very long service life and reduced friction values.

New lubrication groove geometry

The optimised lubrication grooves (from dia. M3) significantly improve the lubrication effect in the contact area.

X allowance for longer service life and increased process reliability

Available exclusively from Würth

Product packaging made of 100 % PCR (recycled plastic from household waste), 100 % recyclable and Cradle to Cradle Certified^® Bronze

Notice

Caution: A special predrilling diameter larger than in thread cutting and with tighter tolerances is required for thread forming! The suitable core hole diameter is stored as a technical characteristic for all thread formers.

In thread forming, the main job of the cooling lubricant is lubrication. The more lubrication used with the highest possible grease content, the longer the service life. The lubrication also affects the surface quality of the thread! For water-mixed cooling lubricants, we recommend an oil concentration in the emulsion of at least 8% for steel processing and at least 12% for stainless steel processing. We recommend Würth cutting paste Cut and Cool Perfect for use on free-standing/pillar drills.

Please note that for thread forming, you will need approx. two times as much performance (torque) compared to thread tapping. The means that capacity should be considered when using thread-cutting devices.

For the tool/material assignments, see the overview tables

Product information

Würth Catalogue

Datasheets(X)

Certificates/ Documents

Type description	Multi-performance thread mould
Thread type	Metric thread
Material to be processed	Steel, Cast metal, Stainless steel, Non-ferrous metal, Titanium, Hard and tough material, Special alloy
Hole type	Clearance/blind hole ≤ 4xD
Suitable for machine type	Pedestal drilling machine, Milling/drill center
Quality	ZEBRA-Premium
Thread type x nominal diameter	M5
Pitch	0.8 mm
Length	63 mm
Thread length	14 mm
Effective length	25 mm
Shank diameter	6.0 mm
Size of square	4.9 mm
Core hole diameter	4.65 mm
Cutting material	HSCo
DIN	2174
Surface	TiN
Form	C
Shank style	Combination of polygonal and cylinder shank with square drive
Tolerance of thread former	ISO 2X (6HX)
Service life (points system)	4 of 4 points
Trueness to gauge (points system)	4 of 4 points
Versatility (points system)	4 of 4 points
Cutting behaviour (points system)	4 of 4 points
Chip formation (points system)	4 of 4 points
Suitable for tensile strength up to	1400 N/mm²
Material of sub-group	General structural steels, Non-alloyed tempering steels, Alloyed tempering steels, Nitriding steels, Tool steels, High-speed steels, Ductile iron, Malleable cast iron, Stainless steels, austenitic, Stainless steels, sulphurated, Titanium, Titanium alloys, Spring steels, Aluminium, Aluminium alloys, Aluminium wrought alloys, Aluminium casting alloys (<10% silicon), Copper, low-alloyed, Brass, long-chipping, Bronze, long-chipping

Cutting values for thread former HSCo Multi
For M20
Material name	Tensile strength			M20
		v_c		n		f
		from	to	from	to
General structural steels	≤ 850 N/mm²	15	30	239	477	2,50
Unalloyed heat-treated steels	≤ 850 N/mm²	15	30	239	477	2,50
Low-alloy heat-treated steels	≤ 850 N/mm²	15	30	239	477	2,50
Unalloyed heat-treated steels	≤ 1000 N/mm²	15	25	239	398	2,50
Low-alloy heat-treated steels	≤ 1000 N/mm²	15	25	239	398	2,50
Alloyed heat-treated steels	≤ 1200 N/mm²	12	15	191	239	2,50
Nitriding steels	≤ 1200 N/mm²	12	15	191	239	2,50
Tool steels	≤ 1200 N/mm²	12	15	191	239	2,50
High-speed steels	≤ 1200 N/mm²	12	15	191	239	2,50
Spheroidal-graphite and malleable iron	≤ 350 HB	15	20	239	318	2,50
Stainless steels	≤ 1200 N/mm²	10	15	159	239	2,50
Titanium and titanium alloys	≤ 850 N/mm²	4	6	64	95	2,50
Special alloys	≤ 1200 N/mm²	2	4	32	64	2,50
Hardox	≤ 1400 N/mm²	2	4	32	64	2,50
Spring steels	≤ 1100 N/mm²	8	12	127	191	2,50
Aluminium	≤ 450 N/mm²	15	30	239	477	2,50
Aluminium alloys	≤ 450 N/mm²	15	30	239	477	2,50
Aluminium wrought alloys	≤ 400 N/mm²	15	30	239	477	2,50
Aluminium cast alloys <= 10% Si	≤ 600 N/mm²	15	30	239	477	2,50
Aluminium cast alloys > 10% Si	≤ 600 N/mm²	10	15	159	239	2,50
Copper, low-alloyed	≤ 400 N/mm²	15	30	239	477	2,50
Brass, long-chipping	≤ 600 N/mm²	15	30	239	477	2,50
Brass, short-chipping	≤ 600 N/mm²	10	15	159	239	2,50
Bronze, long-chipping	≤ 850 N/mm²	15	30	239	477	2,50
Bronze, short-chipping	≤ 1000 N/mm²	10	15	159	239	2,50

Cutting values for thread former HSCo Multi
For M12–M16
Material name	Tensile strength			M12			M14			M16
		v_c		n		f	n		f	n		f
		from	to	from	to		from	to		from	to
General structural steels	≤ 850 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Unalloyed heat-treated steels	≤ 850 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Low-alloy heat-treated steels	≤ 850 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Unalloyed heat-treated steels	≤ 1000 N/mm²	15	25	398	663	1,75	341	568	2,00	298	497	2,00
Low-alloy heat-treated steels	≤ 1000 N/mm²	15	25	398	663	1,75	341	568	2,00	298	497	2,00
Alloyed heat-treated steels	≤ 1200 N/mm²	12	15	318	398	1,75	273	341	2,00	239	298	2,00
Nitriding steels	≤ 1200 N/mm²	12	15	318	398	1,75	273	341	2,00	239	298	2,00
Tool steels	≤ 1200 N/mm²	12	15	318	398	1,75	273	341	2,00	239	298	2,00
High-speed steels	≤ 1200 N/mm²	12	15	318	398	1,75	273	341	2,00	239	298	2,00
Spheroidal-graphite and malleable iron	≤ 350 HB	15	20	398	531	1,75	341	455	2,00	298	398	2,00
Stainless steels	≤ 1200 N/mm²	10	15	265	398	1,75	227	341	2,00	199	298	2,00
Titanium and titanium alloys	≤ 850 N/mm²	4	6	106	159	1,75	91	136	2,00	80	119	2,00
Special alloys	≤ 1200 N/mm²	2	4	53	106	1,75	45	91	2,00	40	80	2,00
Hardox	≤ 1400 N/mm²	2	4	53	106	1,75	45	91	2,00	40	80	2,00
Spring steels	≤ 1100 N/mm²	8	12	212	318	1,75	182	273	2,00	159	239	2,00
Aluminium	≤ 450 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Aluminium alloys	≤ 450 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Aluminium wrought alloys	≤ 400 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Aluminium cast alloys <= 10% Si	≤ 600 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Aluminium cast alloys > 10% Si	≤ 600 N/mm²	10	15	265	398	1,75	227	341	2,00	199	298	2,00
Copper, low-alloyed	≤ 400 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Brass, long-chipping	≤ 600 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Brass, short-chipping	≤ 600 N/mm²	10	15	265	398	1,75	227	341	2,00	199	298	2,00
Bronze, long-chipping	≤ 850 N/mm²	15	30	398	796	1,75	341	682	2,00	298	597	2,00
Bronze, short-chipping	≤ 1000 N/mm²	10	15	265	398	1,75	227	341	2,00	199	298	2,00

Legend
v_c = cutting speed [m/min]
f = feed (mm/r)
n = speed [rpm]
The suggested cutting values are reference values and must be adapted to the respective conditions.

Cutting values for thread former HSCo Multi
For M2–M3
Material name	Tensile strength			M2			M2.5			M3
		v_c		n		f	n		f	n		f
		from	to	from	to		from	to		from	to
General structural steels	≤ 850 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Unalloyed heat-treated steels	≤ 850 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Low-alloy heat-treated steels	≤ 850 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Unalloyed heat-treated steels	≤ 1000 N/mm²	15	25	2.387	3.979	0,40	1.910	3.183	0,45	1.592	2.653	0,50
Low-alloy heat-treated steel	≤ 1000 N/mm²	15	25	2.387	3.979	0,40	1.910	3.183	0,45	1.592	2.653	0,50
Alloyed heat-treated steels	≤ 1200 N/mm²	12	15	1.910	2.387	0,40	1.528	1.910	0,45	1.273	1.592	0,50
Nitriding steels	≤ 1200 N/mm²	12	15	1.910	2.387	0,40	1.528	1.910	0,45	1.273	1.592	0,50
Tool steels	≤ 1200 N/mm²	12	15	1.910	2.387	0,40	1.528	1.910	0,45	1.273	1.592	0,50
High-speed steels	≤ 1200 N/mm²	12	15	1.910	2.387	0,40	1.528	1.910	0,45	1.273	1.592	0,50
Spheroidal-graphite and malleable iron	≤ 350 HB	15	20	2.387	3.183	0,40	1.910	2.547	0,45	1.592	2.122	0,50
Stainless steels	≤ 1200 N/mm²	10	15	1.592	2.387	0,40	1.273	1.910	0,45	1.061	1.592	0,50
Titanium and titanium alloys	≤ 850 N/mm²	4	6	637	955	0,40	509	764	0,45	424	637	0,50
Special alloys	≤ 1200 N/mm²	2	4	318	637	0,40	255	509	0,45	212	424	0,50
Hardox	≤ 1400 N/mm²	2	4	318	637	0,40	255	509	0,45	212	424	0,50
Spring steels	≤ 1100 N/mm²	8	12	1.273	1.910	0,40	1.019	1.528	0,45	849	1.273	0,50
Aluminium	≤ 450 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Aluminium alloys	≤ 450 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Aluminium wrought alloys	≤ 400 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Aluminium cast alloys <= 10% Si	≤ 600 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Aluminium cast alloys > 10% Si	≤ 600 N/mm²	10	15	1.592	2.387	0,40	1.273	1.910	0,45	1.061	1.592	0,50
Copper, low-alloyed	≤ 400 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Brass, long-chipping	≤ 600 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Brass, short-chipping	≤ 600 N/mm²	10	15	1.592	2.387	0,40	1.273	1.910	0,45	1.061	1.592	0,50
Bronze, long-chipping	≤ 850 N/mm²	15	30	2.387	4.775	0,40	1.910	3.820	0,45	1.592	3.183	0,50
Bronze, short-chipping	≤ 1000 N/mm²	10	15	1.592	2.387	0,40	1.273	1.910	0,45	1.061	1.592	0,50

Cutting values for thread former HSCo Multi
For M6–M10
Material name	Tensile strength			M6			M8			M10
		v_c		n		f	n		f	n		f
		from	to	from	to		from	to		from	to
General structural steels	≤ 850 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Unalloyed heat-treated steels	≤ 850 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Low-alloy heat-treated steels	≤ 850 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Unalloyed heat-treated steels	≤ 1000 N/mm²	15	25	796	1.326	1,00	597	995	1,25	477	796	1,50
Low-alloy heat-treated steels	≤ 1000 N/mm²	15	25	796	1.326	1,00	597	995	1,25	477	796	1,50
Alloyed heat-treated steels	≤ 1200 N/mm²	12	15	637	796	1,00	477	597	1,25	382	477	1,50
Nitriding steels	≤ 1200 N/mm²	12	15	637	796	1,00	477	597	1,25	382	477	1,50
Tool steels	≤ 1200 N/mm²	12	15	637	796	1,00	477	597	1,25	382	477	1,50
High-speed steels	≤ 1200 N/mm²	12	15	637	796	1,00	477	597	1,25	382	477	1,50
Spheroidal-graphite and malleable iron	≤ 350 HB	15	20	796	1.061	1,00	597	796	1,25	477	637	1,50
Stainless steels	≤ 1200 N/mm²	10	15	531	796	1,00	398	597	1,25	318	477	1,50
Titanium and titanium alloys	≤ 850 N/mm²	4	6	212	318	1,00	159	239	1,25	127	191	1,50
Special alloys	≤ 1200 N/mm²	2	4	106	212	1,00	80	159	1,25	64	127	1,50
Hardox	≤ 1400 N/mm²	2	4	106	212	1,00	80	159	1,25	64	127	1,50
Spring steels	≤ 1100 N/mm²	8	12	424	637	1,00	318	477	1,25	255	382	1,50
Aluminium	≤ 450 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Aluminium alloys	≤ 450 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Aluminium wrought alloys	≤ 400 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Aluminium cast alloys <= 10% Si	≤ 600 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Aluminium cast alloys > 10% Si	≤ 600 N/mm²	10	15	531	796	1,00	398	597	1,25	318	477	1,50
Copper, low-alloyed	≤ 400 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Brass, long-chipping	≤ 600 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Brass, short-chipping	≤ 600 N/mm²	10	15	531	796	1,00	398	597	1,25	318	477	1,50
Bronze, long-chipping	≤ 850 N/mm²	15	30	796	1.592	1,00	597	1.194	1,25	477	955	1,50
Bronze, short-chipping	≤ 1000 N/mm²	10	15	531	796	1,00	398	597	1,25	318	477	1,50

Cutting values for thread former HSCo Multi
For M3.5–M5
Material name	Tensile strength			M3.5			M4			M5
		v_c		n		f	n		f	n		f
		from	to	from	to		from	to		from	to
General structural steels	≤ 850 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Unalloyed heat-treated steels	≤ 850 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Low-alloy heat-treated steels	≤ 850 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Unalloyed heat-treated steels	≤ 1000 N/mm²	15	25	1.364	2.274	0,60	1.194	1.989	0,70	955	1.592	0,80
Low-alloy heat-treated steels	≤ 1000 N/mm²	15	25	1.364	2.274	0,60	1.194	1.989	0,70	955	1.592	0,80
Alloyed heat-treated steels	≤ 1200 N/mm²	12	15	1.091	1.364	0,60	955	1.194	0,70	764	955	0,80
Nitriding steels	≤ 1200 N/mm²	12	15	1.091	1.364	0,60	955	1.194	0,70	764	955	0,80
Tool steels	≤ 1200 N/mm²	12	15	1.091	1.364	0,60	955	1.194	0,70	764	955	0,80
High-speed steels	≤ 1200 N/mm²	12	15	1.091	1.364	0,60	955	1.194	0,70	764	955	0,80
Spheroidal-graphite and malleable iron	≤ 350 HB	15	20	1.364	1.819	0,60	1.194	1.592	0,70	955	1.273	0,80
Stainless steels	≤ 1200 N/mm²	10	15	909	1.364	0,60	796	1.194	0,70	637	955	0,80
Titanium and titanium alloys	≤ 850 N/mm²	4	6	364	546	0,60	318	477	0,70	255	382	0,80
Special alloys	≤ 1200 N/mm²	2	4	182	364	0,60	159	318	0,70	127	255	0,80
Hardox	≤ 1400 N/mm²	2	4	182	364	0,60	159	318	0,70	127	255	0,80
Spring steels	≤ 1100 N/mm²	8	12	728	1.091	0,60	637	955	0,70	509	764	0,80
Aluminium	≤ 450 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Aluminium alloys	≤ 450 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Aluminium wrought alloys	≤ 400 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Aluminium cast alloys <= 10% Si	≤ 600 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Aluminium cast alloys > 10% Si	≤ 600 N/mm²	10	15	909	1.364	0,60	796	1.194	0,70	637	955	0,80
Copper, low-alloyed	≤ 400 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Brass, long-chipping	≤ 600 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Brass, short-chipping	≤ 600 N/mm²	10	15	909	1.364	0,60	796	1.194	0,70	637	955	0,80
Bronze, long-chipping	≤ 850 N/mm²	15	30	1.364	2.728	0,60	1.194	2.387	0,70	955	1.910	0,80
Bronze, short-chipping	≤ 1000 N/mm²	10	15	909	1.364	0,60	796	1.194	0,70	637	955	0,80