The new Walter Cut MX grooving and parting tool reportedly improves accuracy, stability and process reliability by adopting and improving on proven technology. These new indexable inserts have four cutting edges per insert. Inserts are offered in three different geometry types (GD8, CF5 and RF5), and Tiger·tec Silver PVD coating. The self-aligning, tangential clamping of the MX system and the dowel pin location in its insert seat result in greater repeatability, stability and process reliability.
Plus, unlike comparable systems, it is impossible to fit the inserts incorrectly in the Walter system, which makes handling reliable. In addition to the high-precision toolholder system with precision cooling, the inserts' Tiger·tec Silver PVD maximizes tool life.
Walter Cut MX geometries offer superior chip control, particularly the CF5 sintered geometry. The inserts themselves have four precision ground cutting edges. Cutting depths of up to 6 mm and cutting widths from 0.8 to 3.25 mm are available in the standard range.
Due to the extremely precise center height and the cutting edges, the system is ideal for precision grooves, circlip grooves and small diameters. This makes Walter Cut MX particularly attractive to small parts manufacturers with requirements for high accuracy. The efficiency of the system is such that only one type of cutting insert is required for both the left- and the right-hand toolholders. Furthermore, if one cutting edge breaks, users can continue working with the rest.
Machining grooves and shallow channels. Example: grooving ball-bearing raceways. Typically performed by tools that are capable of light cuts at high feed rates. Imparts high-quality finish.
When used in lathe or screw-machine operations, this process separates a completed part from chuck-held or collet-fed stock by means of a very narrow, flat-end cutting, or parting, tool.
Tool-coating process performed at low temperature (500° C), compared to chemical vapor deposition (1,000° C). Employs electric field to generate necessary heat for depositing coating on a tool’s surface. See CVD, chemical vapor deposition.
WCH10C inserts deliver high repeat accuracy due to its sintering process and are tough and wear resistant due to the strong connection to their titanium carbide substrate. Optimum surface quality is promoted as well by their uniform grain distribution in the substrate, The new Walter coated mixed…
The Xtra·Tec XT M5468 provides protection against twisting and cutting-edge rotation due to the eight facets on its indexable inserts. It also yields maximum productivity thanks to its ability to support optimum cutting data and promote long tool life, as well as maximum process stability due to…
The WHH15X grade features HIPIMS technology for excellent coating adhesion and a high degree of hardness, and AlTiN coating optimized for hard machining; this results in an extremely smooth surface for the best chip removal and high surface quality. This new grade also has an extremely wear-…
The TC430 Supreme thread former, specialized for ISO P materials, is for blind-hole and through-hole threads up to 3.5 x DN. Multiple coolant configurations are offered to best optimize performance—axial or radial coolant, with or without lubrication grooves. This HSS-E-PM thread former with AlCrN…
The TC420 Supreme includes one configuration with chamfer form E, (M5–M16) for blind-hole threads up to 3.5 × DN, which uses an innovative combination of chamfer form E with axial internal coolant and without lubrication grooves. This new combination also improves the lubrication and, at the same…
The new cylindrical modular interface makes it easy to change existing copy, chamfer and shoulder milling tools, with no need to invest in new adaptors. It is easy to assemble and dismantle. Plus, the cylindrical centering reduces runout while providing a support face for good stability. Thanks to…
The FW5 wiper geometries, with a new wiper curved cutting edge and V chip formation for short chips, can also be used on components with long overhangs thanks to the reduced cutting pressure. In addition, the MW5, with its longer cutting edge, is suitable for the highest feeds. The FW5 and MW5 are…
The P6006 insert can perform up to 10 x Dc without the need for a pilot drill. It features a protective chamfer on the insert with HIPIMS-PVD coating, and the wear resistant WPP25 grade which leads to maximum tool life in stable conditions. Further, the insert has a 100° prism for the contact point…
Walter's T2710 indexable thread milling cutter can be used universally in steels, stainless steels, cast iron, non-ferrous metals, high-temperature alloys, and hardened steels up to 55 HRC. It machines threads with nominal diameter from 0.79 in. (20 mm), and pitch range of 1.5 - 6 mm/18-6 TPI…
This innovative insert seating substantially eliminates the tendency for vibrations, increasing insert life as well as tool holder life. The design also prevents incorrect engagement, especially for narrow insert widths, and enables an extremely high indexing accuracy. Elevated protective edge is…
The new Walter Cut MX grooving and parting tool reportedly improves accuracy, stability and process reliability by adopting and improving on proven technology. These new indexable inserts have four cutting edges per insert. Inserts are offered in three different geometry types (GD8, CF5 and RF5), and Tiger·tec Silver PVD coating. The self-aligning, tangential clamping of the MX system and the dowel pin location in its insert seat result in greater repeatability, stability and process reliability.
PRODUCTS
