Silicon Nitride

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M2 Ø0.3 mm Silicon Nitride ball, tungsten carbide stem, L 10 mm, EWL 2 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A tungsten carbide stem provides exceptional rigidity, particularly for styli with small ball and stem diameters. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 0.3 mm
Stem material Tungsten carbide
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 0.30 0.012
B – Length 10.00 0.40
C – Stem Dia. 0.20 0.01
D – Effective Working Length 2.00 0.08
Mass Grams 0.30

M2 Ø0.5 mm Silicon Nitride ball, tungsten carbide stem, L 10 mm, EWL 3 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A tungsten carbide stem provides exceptional rigidity, particularly for styli with small ball and stem diameters. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 0.3 mm
Stem material Tungsten carbide
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 0.50 0.02
B – Length 10.00 0.40
C – Stem Dia. 0.40 0.02
D – Effective Working Length 3.00 0.12
Mass Grams 0.30

M2 Ø0.5 mm Silicon Nitride ball, tungsten carbide stem, L 20 mm, EWL 7 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A tungsten carbide stem provides exceptional rigidity, particularly for styli with small ball and stem diameters. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 0.5 mm
Stem material Tungsten carbide
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 0.50 0.02
B – Length 20.00 0.79
C – Stem Dia. 0.30 0.012
D – Effective Working Length 7.00 0.28
Mass Grams 0.48

M2 Ø1 mm Silicon Nitride ball, stainless steel stem, L 10 mm, EWL 4.5 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A stainless steel stem offers excellent rigidity and is ideal for applications where weight is not critical. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 1 mm
Stem material Stainless steel
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 1.00 0.04
B – Length 10.00 0.40
C – Stem Dia. 0.70 0.03
D – Effective Working Length 4.50 0.18
Mass Grams 0.30

M2 Ø1 mm Silicon Nitride ball, tungsten carbide stem, L 10 mm, EWL 4 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A tungsten carbide stem provides exceptional rigidity, particularly for styli with small ball and stem diameters. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 1 mm
Stem material Tungsten carbide
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 1.00 0.04
B – Length 10.00 0.40
C – Stem Dia. 0.70 0.03
D – Effective Working Length 4.00 0.16
Mass Grams 0.30

M2 Ø1 mm Silicon Nitride ball, tungsten carbide stem, L 20 mm, EWL 12.5 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A tungsten carbide stem provides exceptional rigidity, particularly for styli with small ball and stem diameters. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 1 mm
Stem material Tungsten carbide
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 1.00 0.04
B – Length 20.00 0.79
C – Stem Dia. 0.80 0.03
D – Effective Working Length 12.50 0.50
Mass Grams 0.41

M2 Ø1 mm Silicon Nitride ball, tungsten carbide stem, L 20 mm, EWL 7 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A tungsten carbide stem provides exceptional rigidity, particularly for styli with small ball and stem diameters. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 1 mm
Stem material Tungsten carbide
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N
mm In.
A – Ball Dia. 1.00 0.04
B – Length 20.00 0.79
C – Stem Dia. 0.70 0.03
D – Effective Working Length 7.00 0.28
Mass Grams 0.50

M2 Ø1 mm Silicon Nitride ball, tungsten carbide stem, L 27.5 mm, EWL 20.5 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A tungsten carbide stem provides exceptional rigidity, particularly for styli with small ball and stem diameters. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 1 mm
Stem material Tungsten carbide
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 1.00 0.04
B – Length 27.50 1.08
C – Stem Dia. 0.70 0.03
D – Effective Working Length 20.50 0.81
Mass Grams 0.40

M2 Ø1.5 mm Silicon Nitride ball, stainless steel stem, L 10 mm, EWL 4.5 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A stainless steel stem offers excellent rigidity and is ideal for applications where weight is not critical. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 1.5 mm
Stem material Stainless steel
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 1.50 0.06
B – Length 10.00 0.40
C – Stem Dia. 0.70 0.03
D – Effective Working Length 4.50 0.18
Mass Grams 0.30

M2 Ø1.5 mm Silicon Nitride ball, tungsten carbide stem, L 20 mm, EWL 12.5 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A tungsten carbide stem provides exceptional rigidity, particularly for styli with small ball and stem diameters. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 1.5 mm
Stem material Tungsten carbide
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 1.50 0.06
B – Length 20.00 0.79
C – Stem Dia. 1.00 0.04
D – Effective Working Length 12.50 0.50
Mass Grams 0.50

M2 Ø1.5 mm Silicon Nitride ball, tungsten carbide stem, L 30 mm, EWL 22.5 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A tungsten carbide stem provides exceptional rigidity, particularly for styli with small ball and stem diameters. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 1.5 mm
Stem material Tungsten carbide
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 1.50 0.06
B – Length 30.00 1.19
C – Stem Dia. 1.00 0.04
D – Effective Working Length 22.50 0.89
Mass Grams 0.58

M2 Ø2 mm Silicon Nitride ball, stainless steel stem, L 10 mm, EWL 6 mm

Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A stainless steel stem offers excellent rigidity and is ideal for applications where weight is not critical. Silicon nitride is similar to ruby in terms of its physical properties. Its lower coefficient of friction makes it ideal for use with most scanning applications, particularly aluminum parts. Silicon nitride is not recommended for scanning cast iron due to abrasive wear.

Thread M2
Ball Dia 2 mm
Stem material Stainless steel
Tip material Silicon Nitride
Holder material Stainless steel
Centre styli N

 

mm In.
A – Ball Dia. 2.00 0.08
B – Length 10.00 0.40
C – Stem Dia. 1.00 0.04
D – Effective Working Length 6.00 0.24
Mass Grams 0.30