CARBIDE INSERT,DRILLING INSERT,CARBIDE INSERTS

CARBIDE INSERT,DRILLING INSERT,CARBIDE INSERTS,We offer round, square, radius, and diamond shaped carbide inserts and cutters.

タグ:Groove

When it comes to enhancing the performance and longevity of insert mills, choosing the right coating is crucial. Coatings for insert mills help improve cutting speed, increase tool life, and reduce wear and tear. There are several types of coatings tpmx inserts available, each with its unique benefits. Here are some of the best coatings for insert mills:

1. TiAlN (Titanium Aluminum Nitride): TiAlN is one of the most popular coatings for insert mills. It offers excellent wear resistance, high hardness, and thermal stability. TiAlN coatings are suitable for a wide range of materials, including steel, stainless steel, and high-temperature alloys.

2. TiN (Titanium Nitride): TiN coatings are known for their milling indexable inserts high heat resistance and low friction properties. They are ideal for cutting materials with low thermal conductivity, such as aluminum and copper. TiN coatings also provide improved chip evacuation and reduced built-up edge.

3. AlTiN (Aluminum Titanium Nitride): AlTiN coatings combine the benefits of aluminum and titanium nitride coatings. They offer high hardness, wear resistance, and enhanced thermal stability. AlTiN coatings are suitable for cutting abrasive materials and high-temperature alloys.

4. ZrN (Zirconium Nitride): ZrN coatings provide excellent lubricity and low coefficient of friction, making them ideal for high-speed machining. ZrN coatings also offer good wear resistance and thermal stability. They are commonly used for cutting tough materials like hardened steels and titanium.

5. DLC (Diamond-Like Carbon): DLC coatings are known for their extreme hardness and abrasion resistance. They provide excellent performance in high-temperature applications and offer exceptional wear protection. DLC coatings are suitable for cutting abrasive materials and prolonging tool life.

Choosing the right coating for your insert mills depends on the material being machined, cutting conditions, and desired performance. By selecting the best coating for your application, you can improve productivity, increase tool life, and achieve superior machining results.


The Cemented Carbide Blog: cermet inserts
タグ :
#Groove
#Insert

The latest addition to Tungaloy’s TungMeister changeable-head end mill system is a line of modular heads for TungForce-Rec, the indexable miniature shoulder-milling cutter series.

TungForce-Rec features a V-shaped insert, designed to avoid movement under high centrifugal force while delivering reliability, even when used at a high metal removal rate. The Carbide Drilling Inserts insert’s large rake angle ensures light cutting action, while the obtuse angle of the insert’s flank face strengthens the cutting edge and helps prevent chipping. The pockets in the body design are said to be more compact and sturdy than other cutters with flat-bottom inserts, enabling the small tool diameter to retain a large core diameter. The miniature shoulder mills are suited for applications including shouldering, slotting and 3D profiling.

The inserts feature a 6-mm (0.24") maximum depth of cut and are available in three different grades (AH3135, AH120 and KS05F) for a range of materials. Tool diameters are available from 8 to 16 mm (0.32" to 0.63").

TungMeister’s lineup of TungForce-Rec modules feature secure coupling with minimal bending at the flange and tapered shank contacts. Available standard Carbide Milling Inserts shank materials include cemented carbide, steel and vibration-damping pure tungsten.


The Carbide Inserts Blog: https://cncinserts.blog.ss-blog.jp/
タグ :
#Groove
#Cutter

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