Milling

As precisely defined per ISO 26623, the Polygon Shank Coupling (PSC) interface features a unique tapered polygon which serves as a main element in torque transmitting, centering, and clamping. With double contact on both face and taper, as well as great cross-sectional strength, this interface is unrivaled in terms of high clamping force and bending stiffness.

Available in diameters from 1/8" to 1", the MA267/MA263 Advance tools are excellent for machining all other ISO N materials, such as copper, brass, bronze and magnesium-based alloys, in addition to aluminum. With a cylindrical shank, these tools are available with or without chip-splitters. The WJ30UU grade for the MA267/MA263 tools is uncoated, and the WJ30CD grade features a wear-resistant zirconium nitride (ZrN) coating to achieve maximum productivity and tool life. The MA263 with chip breaker geometry reduces cutting pressure and vibration at high feed rates. Both versions offer end geometry that is designed for aggressive ramping.

The PR18 Series incorporates proprietary MEGACOAT NANO EX coating technology, setting a new standard for wear resistance and durability. By using a unique double lamination technique with special nano multi- layers for abrasion, wear, and heat resistance, this coating surpasses conventional grades, delivering superior performance and extending the lifespan of the tools.

Whether drilling, milling or grinding, application-optimized semi-standard and special tools from Inovatools make many machining operations much more productive and efficient than with conventional tools. Tools that exceed standard requirements always constitute a particular challenge. But thanks to the new digital tool configurator service, Inovatools now offers an online application that allows users to quickly and easily identify semi-standard tools from the catalog program on the basis of predefined Inovatools standards and conveniently configure customized special tools based on their individual needs, materials and processes.

Cera-Cut End Mills are designed for the consistent cutting of high-temperature resistant materials such as Inconel, Hastelloy, and Nimonic as well as the machining of hardened tool steels. Cera-Cut is also suitable for making interrupted cuts, and offers a tight cutting diameter tolerance ranging from -0.0008" to -0.0016" (-20 to -40 microns), depending on the tool diameter.

The global manufacturer has added five variants of square shaped positive inserts for depths of cut up to 6.4 mm to its Pramet brand. The range is suitable for a variety of general engineering and maintenance and repair operations (MRO) machining, with several application-specific geometries and grades available for machining any workpiece material.

The lineup of products consists of three categories of tools. Supreme tools indicate the highest level of technology and performance available. Advance tools indicate products efficiently balanced between price and performance and Perform tools are products that provide an economical solution with focused importance on price.

Especially for milling aluminium alloys and plastics, Horn offers the indexable inserts with polished rake faces on all four edges from stock to counteract the formation of built-up edges. In conjunction with the positive chip breaker geometry, the sharp ground cutting edge produces a soft cut and high surface quality. The special grade is designed for use with the ISO N material group. The inserts can be used in all cutter body variants.

Thanks to significantly reduced friction, this new procedure improves chip removal from the machining zone, while the cutting heat is dissipated even more quickly and effectively through the chips. Temperature increases on the cutting tool and in the workpiece to be machined can be effectively reduced, as can material buildup and galling on the cutting edge. The procedure is suitable for coated and non-coated tools alike.

The basis for this innovative service is a dynamic stiffness analysis of the machine tool. The physical optimization phase (known as the ‘tap test’) can be accomplished with impulse hammers and accelerometers from Kistler; this is followed by an analysis of the customer’s NC program, performed with new software from Productive Machines. All the acquired data is then processed to create a new NC program which, once installed, ultimately leads to better cutting performance, longer tool lifetimes and higher OEE – to name just a few benefits.