Universal boring tool with sintered chip breaking geometry.


Horn Supermini Typ 105


With the new type 105 Supermini, Horn has succeeded in developing a universal boring tool with sintered chip breaking geometry.

Supermini Typ 105 – an icon of tool technology


„This will revolutionise boring,“ Paul Horn thought to himself as he closely examined the first prototype of the Supermini. The Supermini system was then launched in 1989 and remains one of Paul Horn GmbH’s most successful products to this day. Over the last 35 years, the tool system has undergone numerous development stages and has solved the challenges of a wide variety of machining applications worldwide. Horn is now presenting another milestone in the history of the Supermini with a sintered chip breaking geometry for the Supermini type 105. “With a lot of hard work, we have managed to solve economically the problems of long swarf when internally machining small bore diameters,” says Managing Director Markus Horn.


Boring, profile turning, internal grooving, threading, chamfering, face grooving, drilling and slot broaching


The Supermini tool system can be adapted for numerous machining operations. The solid carbide inserts are used for boring from a diameter of 0.2 mm to around 10 mm. Horn developed the carbide blanks for the tool as a teardrop shape. This enables large, precise contact surfaces in the tool holder, which results in greater rigidity of the overall system. Furthermore, the teardrop shape prevents the insert from twisting, which leads to consistently precise positioning of the centre height of the tool. With long tool overhangs, it reduces deflection and minimises vibration during turning. Depending on the application and the diameter to be machined, Horn offers the inserts in three different sizes (types 105, 109 and 110) and different blank types. All types allow internal coolant supply directly to the cutting zone. The Horn tool portfolio contains around 2,500 different standard variants of the Supermini. In addition, Horn solves users’ machining problems with countless customised solutions.

Chipping problems solved


One of the biggest challenges in internal machining is the generation of long swarf, whatever quality of tool is used. Depending on the material, boring often leads to ribbons that wrap around the tool, clog holes or, in the worst case, lead to tool breakage. This is where chip breaking geometry can help. It guides and shapes the chip and causes it to break. Previously, specially lasered or ground chip breaking geometries were used for this purpose. However, this increased the cost of the inserts. With the new Supermini type 105, Horn has succeeded in developing a universal boring tool with sintered chip breaking geometry. The tool offers high process reliability due to its good chip control. The cutting edge geometry extends far into the corner radius of the insert. This ensures chip control even with small infeed settings. The geometry can be used universally for different material groups and is suitable for internal, face, copy and back turning.

Comparison of Horn Supermini with sintered chip mould geometry with its predecessor with conventional chip mould geometry

Economical due to wide range of applications


In addition to the geometry, Horn optimised the carbide blanks of the inserts to have greater rigidity and an even more stable cutting edge area. The coolant supply has also been revised. The new insert is compatible with numerous types of 105 tool holders. Horn offers the inserts as standard in three lengths (15.0 mm, 20.0 mm and 25.0 mm) and in carbide grades TH35 and IG35. The corner radius is 0.2 mm. The tool is suitable for use from a bore diameter of 6 mm. The wide range of applications for the inserts goes hand in hand with their cost-effectiveness, as the price of the new Supermini is similar to that of the standard insert without geometry. The new Supermini will be available from stock from 12/06/2024.
Users can choose the appropriate solution for their application from a wide range of different types of tool holder. These include round shank, square shank, interface and adjustable tool holders for different machine manufacturers. Horn offers four different solutions for clamping the inserts: a classic ball pressure screw, a face clamping element and a lifting element. For confined spaces, Horn also offers a compact system with clamping via a union nut.

WEDCO Typ Supermini 105


The Supermini tool system can be adapted for numerous machining operations.


In practice


RICH Präzision has been a supplier to Horn for several years. The company produces the body of the precision interface for Horn’s SX tool system.

The cutter head is connected to the contact surface of the tool body via a stable, robust, yet highly accurate thread. “Manufacturing the tool holders was initially a major challenge. The precision requirements of Horn are very high,” explains RICH production manager Wolfram Stiefel. He also relies on Horn tools for machining the Horn component. Critical features for the process are, on one hand, the mating thread and, on the other, several very tight tolerances. The concentricity and axial run-out of the various contact surfaces are also important.

Several different Horn systems are used for the turning operations on the components. For internal turning of small diameters, RICH generally uses the Supermini system. In addition to a precision thread, a taper and another fit are used for centring the SX interface with µ-precision. A Supermini type 105 is used to turn the taper and the fit. “The turning process for achieving the very tight tolerances is stable. One problem we have always had with internal turning of small diameters is long swarf that wraps around the tool. No matter which tool manufacturer is selected, everyone has this problem,” explains Wolfgang Rich.

With the new generation of Superminis type 105, Horn has solved the problem that otherwise only specially lasered or ground cutting inserts could solve. The advantages of the new system are evident in use. “The problem with entangled swarf was solved immediately. We still had to manually remove ribbons from the tool with the previous system, but now the fine chips are barely visible in the chip bucket thanks to the new geometry,” says Wolfgang Rich. Tool life is approximately the same as for the inserts without the geometry.


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