What You Need to Know About Renishaw Styli



Below you’ll find a comprehensive Introduction to Renishaw Styli and why we exclusively use and recommend their products.

At Renishaw when they talk about the ‘Production Pyramid”, they’re speaking from four decades of experience. That experience also made them the industry standard.

Besides being the standard, there are at least 3 more reasons we use Renishaw:

  • They make everything to their own exacting standards. Just like we do.
  • They make the largest variety of styli on the market. Almost any application.
  • Their styli are very good value for money. Quality + Value is important.

There is also one more great reason for you to make Wenzel America your Renishaw Styli supplier:

  • We won’t be beaten on price on Renishaw styli and accessories.

Accuracy starts at the point of contact.

What is a stylus?

A stylus is that part of the measuring system which makes contact with the component, causing the probe’s mechanism to displace. The generated signal enables a measurement to be taken. The feature to be inspected dictates the type and size of stylus used. In all cases, however, maximum rigidity of the stylus and perfect sphericalness of the tip are vital.

To achieve this, Renishaw’s stylus stems are produced on CNC machine tools to exacting standards. Great care is taken to ensure that location faces give maximum stiffness whilst stylus mass is optimized to suit Renishaw’s range of probes.
Genuine Renishaw stylus balls are produced to the highest standards and are bonded to the stems in such a way as to ensure maximum joint integrity.
The performance of your gauging can easily be degraded if you use a stylus with poor ball roundness, poor ball location, bad thread fit or a compromised design that allows excessive bending during measurement. To ensure the integrity of the data you gather, make certain that you specify and use a stylus from the comprehensive range of genuine Renishaw styli.  The new WENZEL StylusCleaner will also make sure that your styli’s integrity never waivers.

What is the naming protocol of Renishaw styli?

Renishaw uses the following naming protocol to allow easy identification of styli by name and part number. The examples below show how this protocol is assigned and describe the abbreviations used:

Straight styli
M2 STY D2R L20 EWL14 d1.4SS

The above protocol describes an M2 threaded straight stylus fitted with a 2 mm diameter ruby ball. It has an overall length of 20 mm, has an effective working length (EWL) of 14 mm and has a 1.4 mm diameter stainless steel stem.

Star styli
M2 STR D2R L20 5BALL L19.5 S32

The above protocol describes an M2 threaded star stylus fitted with a 2 mm diameter ruby ball. It has 5 balls on the star and an overall length of 19.5 mm (from the center of the ball to the rear of the star mounting face when assembled to a probe). The span of the star cluster is 32 mm.

Disc styli
M2 DSC SD18 SLVS T2.2 L2.6 BR-Y

The above protocol describes an M2 threaded disc stylus with a spherical diameter disc of 18 mm. It is made from silver steel with a disc thickness of 2.2 mm and a length of 2.6 mm. BR stands for balls/ rollers followed by yes (Y) or no (N).

Cylinder styli

The above protocol describes an M2 threaded cylinder stylus with a critical measuring element diameter of 3 mm made from silver steel. It has an overall length of 13 mm and an EWL of 4 mm.

M4 EXT L15 d7 SS

The above protocol describes an M4 threaded extension with a length of 15 mm diameter and a diameter of 7 mm. The extension is made from stainless steel.
These notes explain the critical features of every stylus type, helping you to choose the right design for each inspection need.


ruby styli diagram

Overall Length

Renishaw uses a standard description of overall length, measuring from the rear- mounting face of the stylus to the center of the ball.

Effective working length (EWL)

This is measured from the center of the ball to the point at which the stem will foul against the feature when measuring ‘normal’ to the part.


To maintain accuracy at the point of contact we recommend that you:

Keep styli short

The more that a stylus bends or deflects, the lower the accuracy. Probing with the minimum stylus length for your application is the best option.

Minimize joints

Every time you join styli and extensions, you introduce potential bending and deflection points. Try, wherever possible, to keep to the minimum number of pieces for your application.

Keep the ball as large as possible

There are two reasons for this:

• It maximizes your ball/stem clearance thereby reducing the chances for false triggers caused by ‘shanking out’ on the stylus stem

•The larger ball reduces the effect of surface finish of the component being measured



The industry standard and the optimum stylus ball material for a vast majority of measurement applications, ruby is one of the hardest known materials. Synthetic ruby is 99% pure aluminum oxide which is grown into crystals (or “boules”) at 2000 °C using the Verneuil process.

The boules are then cut and gradually machined into a highly spherical form. Ruby balls are exceptionally smooth on the surface, have great compressive strength and a high resistance to mechanical corrosion.
Very few applications exists where ruby is not the preferred ball material, however there are two applications where balls manufactured from other materials are recommended.

The first is for heavy duty scanning applications on aluminum. Because the materials attract a phenomenon known as ‘adhesive wear’ can occur which involves build up of aluminum from the surface onto the ball. A better ball material for such applications is silicon nitride.

The second is in heavy duty scanning applications on cast iron. Interaction between the two materials can result in ‘abrasive wear’ of the ruby ball surface. For such applications, Zirconia balls are recommended.

Silicon nitride

Silicon nitride possesses many similar properties to ruby. It is a very hard and wear-resistant ceramic, which can be machined into very high precision spheres. It can also be polished to an extremely smooth surface finish. Silicon nitride does not have the attraction to aluminum and so does not exhibit the adhesive wear seen with ruby in similar applications. However, silicon nitride does show significant abrasive wear characteristics when scanning on steel surfaces and so its applications are best confined to aluminum.


Zirconia is a particularly tough ceramic material with hardness and wear characteristics approaching those of ruby. Its surface properties make it an ideal material for aggressive scanning applications on cast iron components.

Please contact us if you require any styli with special ball materials. We can recommend the most suitable material for scanning different materials


Stylus stems manufactured from stainless steel are used widely for styli with ball/tip diameters of 2 mm or greater and with lengths up to 30 mm. Within this range, one-piece steel stems offer the optimum stiffness to weight ratio, giving adequate ball/stem clearance without compromising stiffness with a joint between the stem and threaded body.

Tungsten carbide
Tungsten carbide stems are best used for maximizing stiffness with either small stem diameters required for ball diameters of
1 mm and below, or lengths up to 50 mm. Beyond this, weight can become a problem and stiffness is lost due to deflection at the stem to body joint.

For ball diameters greater than 3 mm, and lengths over 30 mm, ceramic stems offer stiffness comparable to steel but are significantly lighter than tungsten carbide. Ceramic-stemmed styli can also offer additional crash protection to your probe as the stem will shatter in a collision.

Carbon fiber (Renishaw GF)
There are many grades of carbon fiber materials. However, Renishaw GF combines optimum stiffness characteristics, both longitudinally and in torsion (important in star constructions), with extremely low weight. Carbon fiber is inert and this, combined with a special resin matrix, provides excellent protection in the most hostile of machine tool environments.


The genuine Renishaw stylus range comprises several types:

Straight styli

straight styli

These are the simplest form of stylus, incorporating highly spherical industrial ruby balls and a choice of stem material.

Ruby is an extremely hard material and hence stylus wear is minimized. It is also of low density, keeping tip mass to a minimum, which avoids unwanted probe triggers caused by machine motion or vibration.

Mounted on stems made from a range of materials – stainless steel, tungsten carbide, ceramic and a specialized carbon fiber material, “Renishaw GF” – these simple ruby ball styli are suitable for most inspection applications.

Each stylus has an effective working length (EWL), which is the penetration that can be achieved by the ball before the stem fouls against the feature.

The size of the ball and the EWL of the stylus chosen are dictated by the size of the feature to be inspected. However, keeping the stylus ball as large as possible and the stem as short as possible will ensure maximum ball/stem clearance, whilst providing a greater yet still rigid EWL. Using larger ruby balls also reduces the effect of the surface finish of the component being inspected.

Probing with very long stylus/extension combinations is not recommended with standard kinematic touch trigger probes as the rigidity is reduced and accuracy lost due to stylus bending. This is not the case with other types of probe such as those with strain gage technology, as their very low trigger forces permit the use of long stylus/extension combinations without a significant loss of accuracy.

Star styli

star styli

These stylus clusters provide you with multiple-tip probing of complex features and bores. Four or five ruby ball systems are mounted rigidly on a stainless steel center. Three standard sizes are offered
– alternatively, you can create custom-made star styli using a 5-way stylus center and any of the genuine Renishaw stylus range.

Star styli can be used to inspect a variety of different features. Their use can reduce inspection cycle times by allowing multi-tip probing, minimizing the need to move the probe to extreme points of internal features such as the sides or grooves in a bore. Using star styli also allows effective probing in the –Z (upwards) direction when using a 5-way probe, provided that the stylus tips extend beyond the diameter of the probe body. Each tip on a star stylus requires datuming (sometimes referred to as ‘qualifying’ or ‘calibrating’) in the same manner as a single-ball stylus. The ‘span’ of star styli is taken from ball center to ball center.

Disc styli

disc styli

These styli are used to probe undercuts and grooves within bores, which may be inaccessible to star styli. They are ‘sections’ of highly spherical balls and are available in various diameters and thicknesses. Full rotational adjustment and the ability to add a center stylus are features of the Renishaw range of disc styli that make them particularly flexible and easy to use.

Probing with the ‘spherical edge’ of a simple disc is effectively the same as probing on or about the equator of a large stylus ball. However, only a small area of this ball surface is available for contact and hence thinner discs require careful angular alignment in order to ensure correct contact with the feature being probed.

A simple disc requires datuming for only one diameter (usually in a ring gage), but limits effective probing to only X and Y directions.

Adding a ‘radius end roller’ allows you to datum and hence probe in the Z direction, provided that the center of the ‘radius end roller’ extends beyond the diameter of the probe. The ‘radius end roller’ can be datumed on a sphere or a slip gage. Rotating and locking the disc about its center axis allows the ‘radius end roller’ to be positioned to suit the application.

Discs may also have a threaded center to allow the fixing of a center stylus, giving the additional flexibility of probing the bottom of deep bores (where access for the disc may be limited).


A range of specialist styli is available to enable probing of features such as thread form, thin sectioned material, tool setting and other specialist applications.

Cylinder styli

cylinder styli

These are used for probing holes in thin sheet material. In addition, various threaded features can be probed and the centers of tapped holes located. Ball-ended cylinder styli allow full datuming and probing in X, Y and Z directions, thus allowing surface inspection to be performed

pointer styli

Pointer styli
Pointer styli are designed for the inspection of thread forms, specific points and scribed lines (to lower accuracy). The use of a radius end pointer stylus allows more accurate datuming and probing of features as detailed above and can also be used to inspect the location of very small holes.

Ceramic hollow ball styli

ceramic hollow styli

Ceramic hollow ball styli are ideal for probing deep features and bores in X, Y and Z directions, with the need to datum only one
ball. There are two versions in the range, 18 and 30 mm diameter, specially designed for the TP2 / TP20 / TP200 and TP6 probes respectively. Probing with such a large diameter ball can average out the effects of very rough surfaces.

tool setting styli

Tool setting styli

Typically, these are fitted with a square tip and can have threaded or plain shaft attachments. The tip faces are ground to ensure high squareness and parallelism. The TS27R tool setting probe for machining centers can also be fitted with a tungsten carbide disc stylus.

crash protection devices

Crash protection devices
Renishaw’s stylus crash protection devices are designed to break in the event of impact and protect the probe from damage.

Accessories and tools
A wide range of accessories including extensions, 4 and 5-way centers and stylus knuckles complement the genuine Renishaw stylus range to achieve fully flexible inspection.

Stylus centers

stylus centers

These provide maximum probing flexibility with a single probe. Taking up to five styli of the same mounting thread, this accessory allows you to build stylus configurations to your own specification.

stylus knuckles

Stylus knuckles

These give full adjustment about two axes, allowing the stylus to be orientated to probe angled features. This adjustment is especially useful when the probe cannot be correctly orientated by the probe head or when access for the head is limited.

Stylus extensions

stylus extensions

These provide additional probing penetration by extending the stylus away from the probe. However, using stylus extensions can reduce probe accuracy due to loss of rigidity. This is not the case with electronic probes, whose extremely low trigger forces render them less sensitive to this type of inaccuracy.

stylus thread adapters

Stylus thread adaptors

These allow M2, M3, M4 and M5 threaded styli to be interchanged on the majority of touch trigger probes. They are particularly useful for adapting the extensive range of specialized application M2 styli for use on larger probes.

Stylus tools
Specifically designed for mounting styli correctly onto probes and for the construction of specialized stylus combinations, Renishaw’s stylus tools protect your investment.

The S7 stylus tool

s7 stylus tool

The S7 stylus tool is used for tightening styli and accessories when connecting to one another or directly into the probe. It is specifically designed to yield if excessive tightening force is applied, avoiding damage to the threads of stylus and probe.

stylus crank

A stylus crank
A stylus crank can allow access to features that are otherwise difficult to reach, and are often used in lathe inspection applications.



Renishaw styli and accessories are available in a wide selection of kits, ranging from a small precision set of the most frequently used styli, to a comprehensive set to meet virtually every inspection need.

styli and accessories

Some sets are housed in a quality wooden case for maximum protection and superb presentation. The styli are held in a wood insert, individually located in a nylon sleeve providing protection for the mounting threads. This type of box features a removable module which houses up to twelve ruby ball styli and contains a tray for discs, tools and accessories. This allows the stylus selection for a particular inspection task to be brought to the CMM’s table. The sloping lid design of this kit provides easy access to styli, minimizing handling of ruby balls and contact surfaces, thus aiding cleanliness.
Probing kits are also available to include a probe, probe head, extension bars and styli.


If you cannot achieve your objectives using our extensive range of standard products, Renishaw’s Styli and Custom Products Division offers a unique service by providing customers with a total solution for their probing needs for CMM, machine tool or scanning applications.

styli custom applications

The Division includes expertise in applications, design, engineering and manufacturing with extensive experience in providing tailor-made product solutions to specific customer’s requirements.
In many application problems, the solution lies in the choice of the stylus which influences access of the workpiece features, inspection times and probe performance. All of these aspects are considered within the design of a custom stylus, ensuring that the solution incorporates the ideal choice of materials and optimizes probe performance for your particular application.

Renishaw’s Styli and Custom Products Division has supplied over 5,000 different custom styli into probing applications worldwide, which means the solution to your application problem may already exist. After this in depth introduction to Renishaw Styli by the WENZEL team do not hesitate to contact us we will have the solution to your challenge and deliver in no time.

Choose the Right Styli to Maximize Accuracy

Since a Renishaw stylus has a customizable ball diameter, overall length, stem diameter, and effective working length, it’s essential to understand what you need to focus on in order to size your stylus for your desired accuracy or required tolerances.
When choosing styli for your applications, consider the following:

Stylus Joints & Extensions

Every stylus joint and extension introduces potential deflection points, reducing the accuracy of your measurements. Whenever it is possible to do so, ensure that you’re using minimal joints and extensions.

Length of Stylus

Bending and deflection reduce measurement accuracy, which is why shorter styli are preferred. Ensure you choose the shortest stylus you can while still being able to reach all of your measurement points.

Stylus Tip Size & Shape

Maximizing surface area contact between your measured component and stylus tip is essential to maintaining high-accuracy measurements. A larger diameter ball increases the stiffness of your stylus and reduces the effects the surface area finishes can have on measurement accuracy. Furthermore, a larger stylus tip will reduce the chance that your measurements encounter a false trigger caused by “shanking out” occurring on the stylus stem.

Sphericity (Roundness) of the Stylus Ball

Stylus balls are the most common tips used in standard measurements and are typically constructed from synthetic ruby. Each ruby ball is manufactured to a “precision grade,” typically ranging between grade 5 and grade 10; the lower the grade, the more precise the measurement ball. A grade 5 ball has a sphericity of 0.13 microns, whereas a grade 10 ball has a sphericity of 0.25 microns. Renishaw styli are verified for sphericity, with grade 3 balls (0.08 microns) available when required in demanding applications.

For More Information or Help Selecting Your Stylus Contact WENZ

For further advice on outfitting your CMM with aftermarket Renishaw probes please email Nick at WenzelAmerica.com  and he will also give you more information on the new StylusCleaner by WENZEL.(UPDATED 3 MAY 2021)

WENZEL America exclusively uses Renishaw probes, styli and accessories on all of our machines. As a dedicated supplier of Renishaw we will beat any price in the market and service any machine with Renishaw probes regardless of brand.

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