SUPAL Carbide Inserts Solid Tungsten Carbide Turning Tool Inserts

Product Description:

Carbide inserts are a popular choice for many machining and cutting applications due to their versatility and cost-effectiveness. Made from a combination of tungsten carbide and cobalt, they provide a hard, wear-resistant surface that can withstand high temperatures and abrasive materials.
Using carbide inserts in machining and cutting provides several advantages, including longer tool life, improved cutting performance, and reduced downtime for tool changes and sharpening. When an insert becomes dull, it can simply be rotated or replaced with a new one, minimizing the costs associated with frequent sharpening and tool maintenance.
Overall, carbide inserts are ideal for a wide variety of applications, providing a high level of performance and durability compared to traditional high-speed steel tools. They are available in a variety of shapes and sizes, with different types of cutting edges and geometries to suit the specific requirements.

Features:

Carbide inserts are used in a wide variety of machining and cutting applications due to their high performance, durability, and efficiency. Here are some of the common applications for carbide inserts:

Carbide inserts are commonly used in lathes and turning machines for precision turning and boring operations. Boasting a wide range of applicable materials, including steel, stainless steel, aluminum, and cast iron, carbide inserts are suitable for these applications.

Carbide inserts are also abundantly used in milling operations for cutting slots, pockets, and other features in workpieces. It is suitable for a broad range of materials as well, such as steel, stainless steel, aluminum, and composite materials.

For drilling applications, carbide inserts are used for creating holes in workpieces. These can be employed for steel, stainless steel, and aluminum.

In threading and grooving applications, carbide inserts are used for creating threads or cutting grooves respectively. All the aforementioned materials, including steel, stainless steel, and aluminum, are applicable for these processes.
Overall, with its wide range of performance, durability, and versatility, carbide inserts are suitable for a wide range of machining and cutting applications. Using the right insert for a specific application helps machinists and operators achieve high-quality results and maximize the lifespan of their tools.

Technical Parameters:

Material being machined: The material being machined is a critical factor to consider when selecting a carbide insert. Different materials have different hardness, toughness, and other properties that can affect the selection of the insert material and geometry.
Cutting speed and feed rate: The cutting speed and feed rate are critical parameters that can affect the performance of the carbide insert. These parameters depend on the specific material being machined, the type of operation, and the machine tool being used.
Depth of cut: The depth of cut is another critical parameter that can affect the performance of the carbide insert. This parameter depends on the material being machined, the machine tool being used, and the specific operation.
Insert geometry: The geometry of the insert, including the shape, size, and angle of the cutting edge, is critical to achieving the desired performance and productivity. The geometry of the insert should be matched to the specific application and the material being machined.
Coating: The choice of coating can also affect the performance and productivity of the carbide insert. Different coatings provide different levels of wear resistance, toughness, and other properties that can affect the performance of the insert.
Workpiece tolerance and surface finish requirements: The tolerance and surface finish requirements of the workpiece are important considerations when selecting a carbide insert. Different inserts and geometries can provide different levels of accuracy and surface finish.
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.

Applications:

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.

Customization:

We offer custom made carbide inserts for metal lathe, turning inserts, Inserts TNMG 331-TF with the following features:

• Brand Name: SUPAL
• Place of Origin: China
• Thread Length: 6
• Size: 1/4
• Thread Pitch: 0.5
• Cutting Edge Angle: 90°
• Radius: 0.02

Support and Services:

At Carbide Inserts, we provide technical support and services for all our products.
We are committed to providing the best customer service and support for our customers. Our technical support team is available 24/7 to answer any questions you may have about our products. We also offer online tutorials, live chat support, and a comprehensive knowledge base to help you get the most out of your Carbide Inserts.
We also offer a variety of maintenance and repair services. If you need help troubleshooting or repairing your Carbide Inserts, our experienced technicians are here to help. We can also provide advice and assistance with installation and setup.
If you have any questions about our technical support and services, please don't hesitate to contact us. We look forward to helping you get the most out of your Carbide Inserts.