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Pure tungsten sheets, known for their superior physical and chemical properties, are widely used across various industrial fields. Below are the main application areas and characteristics: 1. Electronics Industry Tungsten sheets are indispensable materials in the electronics industry, extensively used in the production of vacuum electronic devices such as cathodes, electrodes, and thermionic emitters. Their excellent electrical conductivity and oxidation resistance enable them to remain stable under high-temperature and high-vacuum conditions. Additionally, W sheets are employed in the semiconductor industry,…

Pure tungsten sheets are known for their exceptional physical and chemical properties, including a high melting point (3410°C), high density, excellent thermal and electrical conductivity, and remarkable resistance to high temperatures. While these properties make tungsten a valuable material for various industrial applications, they also pose significant challenges during its processing. Below are the primary difficulties encountered in processing tungsten sheets: 1. High Melting Point and Hardness Tungsten’s extremely high melting point and intrinsic hardness make it difficult to machine…

December 11, 2024 WASHINGTON – The Office of the United States Trade Representative (USTR) today announced tariff increases under Section 301 for imports from the People’s Republic of China of certain tungsten products, wafers, and polysilicon. The rates for solar wafers and polysilicon will increase to 50 percent, and the rates for certain tungsten products will increase to 25 percent. These tariff increases will take effect on January 1, 2025. “The tariff increases announced today will further blunt the harmful…

The manufacturing process of strand tungsten filaments involves several key steps, each of which significantly influences the filament’s final properties, such as its strength, conductivity, and heat resistance. Below is a typical process for manufacturing tungsten filaments and how each stage impacts the properties of the filaments: 1. Tungsten Powder Production The first step in the process involves producing tungsten powder, which serves as the raw material for filament production. Tungsten is typically extracted from ores such as scheelite (CaWO?)…

The durability and longevity of strand tungsten filaments in high-temperature environments are influenced by several key factors that determine their ability to withstand extreme heat, mechanical stress, and chemical reactions. Below are the primary factors that contribute to the performance and lifespan of tungsten filaments in such conditions: 1. High Melting Point of Tungsten Tungsten has one of the highest melting points of any metal, at 3422°C (6192°F). This intrinsic property makes tungsten filaments exceptionally durable at high temperatures. In…

Strand tungsten filaments are critical components in various high-temperature and precision applications in modern technology. Due to tungsten’s exceptional physical properties, such as its high melting point (over 3,400°C or 6,150°F), low vapor pressure, and resistance to oxidation, strand tungsten filaments are used in a wide range of industries. Below are some of the primary applications: 1. Incandescent Light Bulbs The most common use of tungsten filaments is in incandescent light bulbs. When electricity passes through the filament, it heats…

A strand tungsten filament is a thin, flexible wire made from tungsten, a chemical element known for its exceptional strength, high melting point, and resistance to heat. Tungsten, with an atomic number of 74, has the highest melting point of any metal—over 3,400°C (6,150°F)—making it ideal for use in applications where high temperatures are encountered. The “strand” refers to the specific form of the tungsten filament, which is typically a fine wire made by drawing tungsten through a series of…

Tungsten wire offers several specific advantages when used in cut-resistant fabrics. These advantages make it a superior choice for enhancing the performance of cut-resistant fabrics in a wide range of applications, from industrial safety gear to high-performance protective clothing. Here are the advantages of tungsten wires: Exceptional Strength: Tungsten is known for its high tensile strength, which makes the wire extremely resistant to cutting, tearing, and abrasion. This property enhances the overall durability of fabrics, making them more effective in…

The diameter of tungsten wire plays a significant role in determining the cut-resistance properties of the knitted fabric. Here’s how it affects the fabric: Increased Diameter, Higher Cut Resistance: Thicker W Wire: A larger diameter W wire increases the fabric’s resistance to cutting forces. This is because thicker wires are more difficult to sever, providing a stronger barrier against sharp objects. The greater mass and cross-sectional area of thicker wires can better absorb and distribute the force applied by a…