The basic essentials of choosing cemented carbide blades
Cemented carbide tools have a wide range of applications in the industrial market, and their excellent properties are favored by customers. So, do you know what factors affect the life of cemented carbide tools? Please allow Betalent to answer this.
The service life of cemented carbide tools is generally affected by three aspects. They are the preparation of the tool substrate, preparation of the cutting edge, and the choice of coating.
1. The tool substrate of cemented carbide tools
CNMG InsertThe particle size of WC can determine the substrate properties of cemented carbide tools. The larger the particle size, the stronger the toughness of the tool. The smaller the particle size, the better the wear resistance of the tool. The cobalt content of the tool can also be controlled at 6%~12% to obtain good toughness.
2. Preparation of the cutting edge of cemented carbide tools
The preparation of the cutting edge of cemented carbide tools is also called edge passivation, which is an important factor affecting the success or failure of machining.
Generally used for continuous turning and milling of most steel and cast iron inserts, a greater degree of cutting edge passivation is required.
On the contrary, the blades used for processing stainless steel and high-temperature alloys Lathe Inserts are prone to form built-up edge, so the cutting edge is required to be sharp and can only be slightly passivated.
3. The choice of coating for cemented carbide tools
The coating can improve the cutting toughness of cemented carbide tools to a certain extent.
Coating technology includes: titanium nitride coating, nitrogen aluminum titanium coating, titanium carbonitride coating, chromium nitride coating, diamond coating and so on.
Betalent can have high-quality tool substrate, coating and mature cutting edge preparation technology, and customize sophisticated carbide tools for customers.
Using AI to Predict CNC Machine Spindle Issues Before They Are Issues
In addition to an innovative wire changer, the Robofil 2030SI-TW offers a Surface Integrity feature that minimizes the recast layer. This feature is said to be especially suitable for machining carbide.
GFAGIECHilles' dual-wire machine can switch automatically between EDM wires of two different diameters. This close-up shows the machine's twin wire feeding mechanism, its "automatic tool changer," so to speak.
This diagram of a multi-cavity die with various minimum radii and surface finish requirements Cemented Carbide Inserts shows how cutting with two wires reduces overall production time.
PreviousNextThe development of automatic "tool" changing for wire EDM (electrical discharge machining) promises to revise the process strategies applied to many wirecut workpieces. This trend is already apparent following the introduction of dual-wire machines by Agie Charmilles Technologies (Lincolnshire, Illinois). These models, the Robofil 2030SI-TW and the Robofil 4030SI-TW (the TW designation stands for twin wire) are reportedly the first wire machines with the capability to change from one size wire to another automatically. "Slugless" machining, for example, becomes a more attractive option.
An EDM wire of a larger diameter (0.010 inch would be typical) is used to remove all of the material in an opening as a kind Cutting Tool Inserts of roughing operation, where the wire follows a path similar to a pocketing routine in milling. This roughing procedure does not produce the slug usually created when the wire follows only the outline of the portion to be removed. After roughing out the opening, a finishing operation follows with a wire of a smaller diameter (0.004 inch perhaps). The smaller wire is used to produce sharper corners, reach a tighter dimensional accuracy and achieve a finer surface finish with additional skim cuts.
According to GFAGIECHilles, implementing this strategy on its dual-wire machines typically saves from 30 to 50 percent of the time normally taken, depending on the application.
Without automatic wire changing, openings could be cut with the large-diameter wire, then recut with the small wire after a manual wire change. For workpieces with numerous openings such as a lead frame die or multi-cavity mold component, manual wire change time adds up to a significant part of total process time. Another possibility is to cut all of the openings with the smaller wire. This approach minimizes loss of precision during manual wire changing and re-alignment. However, cutting speed is proportional to wire diameter, so the cutting time for the fine wire is considerably longer and the operator must be prepared for timely slug removal. Either of these scenarios rules out prolonged unattended operation, the mode in which EDM operates most economically. Both scenarios are also likely to keep the workpiece in water longer than the dual wire approach, increasing the risk of corrosion.
The dual-wire machines are equipped with two separate wire circuits located side by side on the front panel to bring the two wires down to the upper head guiding zone. Changeover from one wire to the other takes about 45 seconds and occurs without operator intervention. Each machine's on-board CT-Expert system automatically generates the machining parameters and tool paths for both wires, selecting the correct wire and wire settings for each programmed wire switch.
The Robofil 2030SI-TW handles workpieces as large as 1,130 by 510 by 260 mm (44.4 by 20.0 by 10.2 inches) and weighing as much as 500 kg (1,100 pounds). The Robofil 4030SI-TW handles workpieces as large as 1,150 by 725 by 360 mm (49.2 by 28.7 by 14.2 inches and weighing as much as 800 kg (1,765 pounds). Both machines can accept wire spools weighing as much as 55 pounds.
