Durable Corrosion-Resistant Tungsten Carbide Core Insert for Molding
Product Features
- High Hardness: Tungsten carbide exhibits exceptional hardness, providing superior resistance to wear and ensuring long-lasting performance in molding applications.
- Excellent Wear Resistance: The advanced wear resistance of tungsten carbide prolongs the service life of the core insert, maintaining its effectiveness under high-friction conditions.
- Corrosion Resistance: Tungsten carbide possesses excellent corrosion resistance, ensuring stability and durability in diverse operational environments.
- High Strength: The high strength of tungsten carbide enables the core insert to endure substantial mechanical stress without deformation, ensuring consistent performance.
- Thermal Stability: Tungsten carbide maintains its hardness and strength at elevated temperatures, making it suitable for high-temperature molding processes.
Applications
The tungsten carbide core insert for front molding is primarily used in the following applications:
- Injection Molding: Essential for precision molding of plastic parts in industries such as automotive, electronics, and consumer goods.
- Die Casting: Used in die casting processes for shaping and forming metal parts with high dimensional accuracy and durability.
- Automotive Manufacturing: Applied in the production of automotive components requiring precise molding and durability.
- Aerospace: Utilized in aerospace manufacturing for producing components that meet stringent quality and performance standards.
Summary
The tungsten carbide core insert for front molding is a critical component in high-precision molding applications across various industries. Its exceptional hardness, wear resistance, corrosion resistance, and thermal stability make it an ideal choice for achieving precise and durable moldings. By enhancing efficiency and reducing maintenance costs, this insert plays a pivotal role in ensuring high-quality production outcomes in injection molding, die casting, automotive manufacturing, and aerospace industries.
Processing of Tungsten Carbide
"Mechanical Processing," which involves various machining processes applied to the tungsten carbide blank that has undergone heat treatment. This is done to achieve the desired shape for the final product. Here's a detailed explanation of the mechanical processing of tungsten carbide products:
- Cutting: Utilize cutting tools to cut the heat-treated tungsten carbide blank into the required shape and dimensions. This step is often used to establish the overall dimensions of the product.
- Milling: Employ milling processes to cut into the surface of tungsten carbide using rotating tools, further refining the product's shape and surface characteristics. Milling can be used to process flat surfaces, grooves, and other specific shapes.
- Grinding: Use grinding tools to grind the tungsten carbide, achieving higher surface smoothness and precision. Grinding also helps refine the dimensions and shape of the product.
- Turning: Use a lathe for turning operations, where the tungsten carbide undergoes rotational cutting, particularly useful for processing cylindrical products or components.
- Hole Machining: Use drilling machines or other hole machining equipment to create holes in the tungsten carbide, meeting the specified diameter requirements in the product design.
The selection and sequence of these mechanical processing steps depend on the design specifications and intended use of the final product. Through mechanical processing, tungsten carbide products can be precisely shaped into various forms, and their surface characteristics can be further optimized to meet specific application requirements.
Zhuzhou Sanxin Cemented Carbide Manufacturing Co., Ltd, is engaged in R&D of cemented carbide raw material, processing, selling and aftermarket services.
Sanxin dedicated in inheriting tungsten carbide OEM services and improvement solutions, has a specialized technical team as a solid foundation and obvious superiority to manufacture high-quality tungsten carbide product.
Sanxin was established in 2003;
Two main factories were built in 2007;
Passed ISO 9001:2015 in 2017;
High-tech Enterprise Identified in 2017;
Obtained foreign trading license 2017;
Confirmed as supplier of CLEP in 2021;
Owned more than 20 patent certificates.
We always carry out "quality and customer first", "Samples available", "punctual delivery", "mutual benefit", "focus on innovation", "service creates value"…business policy in the market. Sanxin delivering carbide value.