Anti-Corrosion Tungsten Carbide Nozzle for Pipeline Cleaning

Anti-corrosion Tungsten Carbide Nozzle for Pipeline Cleaning

Key Features:

• Tungsten carbide nozzle with precision-machined hard alloy head.
• Dimension Specifications: φ15*φ14*φ0.8-6*M10-1*38.
• Thread using fine M10*1 threads, 15mm in length, with a blind hole of 30mm length and inner diameter ranging from φ9 to φ8.
• 6 evenly distributed φ0.8 small holes for efficient pipeline cleaning operations, positioned at a consistent 45° angle.

• Widely used in various industrial applications, including:
  • Welding nozzles for laser soldering machines.
  • Precision spraying of corrosive liquids.
  • Cold and hot spraying.
  • Spray sanding.
  • Liquid fluid control.
  • Glue dispensing.
  • High-pressure engineering machinery.
  • Centrifugal machinery.
  • Pipeline cleaning.

• Meets requirements for durability, high temperature, high pressure, and wear resistance.
• Ingenious design suitable for pipeline cleaning tasks.
• Uniformly distributed small holes for easy angle adjustment, providing efficient cleaning operations.

This tungsten carbide nozzle for pipeline cleaning is a versatile and high-performance hard alloy nozzle designed to meet various industrial cleaning needs. Its robust and durable design ensures stable operation in high-temperature and high-pressure environments while maintaining excellent wear resistance for prolonged and reliable use.

Tungsten Carbide Processing products are packaged in sturdy boxes and sealed to ensure that they reach their destination safely. Packaging materials used include bubble wrap, foam, bubble bags, cardboard, and other appropriate materials. All of our products are shipped via FedEx, UPS, or USPS.

The production and processing of tungsten carbide, an important hard alloy material used in the manufacturing of cutting tools, drill bits, and abrasive tools, involve several steps. Here is a general outline of the tungsten carbide production and processing workflow:

1. Raw Material Selection: Choose high-purity tungsten powder and carbon powder as raw materials to ensure the produced tungsten carbide exhibits excellent properties.
2. Material Mixing: Blend the selected tungsten and carbon powders in specific proportions to form a uniform mixture.
3. Pressing: Place the mixture into molds and subject it to high pressure to achieve the desired shape.
4. Initial Sintering: Place the pressed blank in a high-temperature furnace for initial sintering, forming a preliminary structure.
5. Powder Metallurgy Sintering: Subject the preliminarily sintered blank to powder metallurgy sintering, utilizing high temperature and pressure to facilitate the complete reaction between carbon and tungsten, resulting in tungsten carbide.
6. Heat Treatment: Conduct heat treatment on the sintered product to adjust its crystal structure and properties, enhancing hardness and wear resistance.
7. Product Machining: Process the heat-treated blank through cutting, grinding, and other machining techniques to produce the final tungsten carbide products.
8. Surface Treatment: Optionally perform surface treatments such as coating or polishing to improve surface properties as needed.
9. Quality Inspection: Conduct quality checks on the finished tungsten carbide products to ensure they meet specified technical standards and customer requirements.

Each step in this process requires precise control to ensure the final product possesses the desired physical and chemical properties. While variations may exist among different manufacturers and products, this serves as a general overview of the tungsten carbide production and processing workflow.