Product Details
Place of Origin: China
Brand Name: SUPAL
Payment & Shipping Terms
Cutting Direction: |
Right Hand |
Insert Thickness: |
3.2 |
Thread Size: |
M3 |
Thread Pitch: |
0.5 |
Shape: |
Square |
Overall Length: |
1.5 |
Radius: |
0.02 |
Thread Length: |
6 |
Cutting Direction: |
Right Hand |
Insert Thickness: |
3.2 |
Thread Size: |
M3 |
Thread Pitch: |
0.5 |
Shape: |
Square |
Overall Length: |
1.5 |
Radius: |
0.02 |
Thread Length: |
6 |
Carbide inserts are a popular choice for machining and cutting applications. They consist of a combination of tungsten carbide and cobalt, which provides a hard, wear-resistant surface that can withstand high temperatures and abrasive materials.
Carbide inserts come in a range of shapes and sizes, each with unique cutting edges and geometries. They are designed to fit a tool holder, which is attached to a machine tool like a lathe, milling machine, or CNC machine.
Carbide inserts are extremely useful thanks to their long life, improved cutting performance, and reduced downtime. When needed, inserts can be swapped out or rotated, thus reducing the need for frequent sharpening and maintenance.
All in all, carbide inserts are a great cost-effective option for a variety of machining and cutting applications, offering a high level of performance and durability compared to the traditional high-speed steel tools.
Carbide inserts are widely used in machining and cutting operations with high performance, durability and efficiency.
Here are the several common usages of them:
In conclusion, due to its relatively high performance, durability and versatility, carbide inserts are broadly used in machining and cutting tasks. By appropriately selecting a certain insert to a particular task, machinists and operators can achieve high-quality results while making full of its life span.
When selecting a carbide insert for a specific application, several factors should be considered to ensure optimal performance and productivity. Here are some key factors to consider:
Overall, the selection of a carbide insert for a specific application requires consideration of several factors, including the material being machined, cutting speed and feed rate, depth of cut, insert geometry, coating, and workpiece tolerance and surface finish requirements. By selecting the appropriate carbide insert and optimizing the cutting parameters, machinists and operators can achieve high-quality results and maximize the lifespan of their tools.
There are several cost-effective carbide inserts available that provide good performance and durability for a wide range of machining applications. Here are some examples:
Uncoated carbide inserts: Uncoated carbide inserts are a cost-effective option that provide good performance for a variety of machining applications. While they may not offer the same level of wear resistance as coated inserts, they can provide a good balance of performance and affordability.
CVD-coated carbide inserts: Chemical vapor deposition (CVD) coatings are a cost-effective option that provide good wear resistance and toughness. These coatings are typically less expensive than PVD coatings and are suitable for a wide range of machining applications.
PVD-coated carbide inserts: Physical vapor deposition (PVD) coatings are a higher-end option that provide excellent wear resistance and toughness. While they may be more expensive than other coating options, they can provide longer tool life and improved productivity in certain applications.
Carbide inserts with a lower cobalt content: Some carbide inserts are available with a lower cobalt content, which can help to reduce the cost while still providing good performance. These inserts may be suitable for less demanding applications or for operators on a tighter budget.
Overall, there are several cost-effective carbide insert options available that can provide good performance and durability for a wide range of machining applications. The choice of insert will depend on the specific application, material being machined, and other factors such as cutting speed, feed rate, and depth of cut. By selecting the appropriate insert and optimizing the cutting parameters, machinists and operators can achieve high-quality results and maximize the lifespan of their tools.
Brand Name: SUPAL
Place of Origin: China
Size: 1/4
Cutting Edge Angle: 90°
Coating: TiN
Number of Cutting Edges: 4
Thread Size: M3
Our custom-made carbide inserts are perfect for woodturning, metal cutting and lathe turning tools. With a SUPAL brand name, made in China, the size of 1/4, a 90° cutting edge angle, TiN coating and 4 cutting edges, these inserts are suitable for thread size M3.
We provide technical support and service for Carbide Insert. Our technical support team are highly experienced and knowledgeable in the area and can provide you with assistance for your Carbide Insert product. We are available to answer your questions and provide advice on the best way to use your product. We also provide installation and repair services for Carbide Insert products.
If you ever encounter a problem with your Carbide Insert product, we can give you advice on how to troubleshoot the issue. We can also assist you with any warranty or replacement questions you may have. Our team is dedicated to providing you with the best customer service experience.