Tungsten

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Neutralization Method for Producing Ammonium Metatungstate 6

Ammonium metatungstate (AMT), a crucial tungsten compound, is widely used in catalysis, petrochemicals, and new materials. The neutralization method, due to its simplicity and ease of operation, is one of the classic industrial methods for producing AMT. Core Raw Materials and Requirements: The key raw materials for the neutralization method are tungstic acid and ammonia water, and their quality directly impacts reaction efficiency and product quality. Tungstic acid purity typically needs to be above 98%, with low impurity content to…

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What Are the Production Processes of Ammonium Metatungstate? 5

Ammonium metatungstate (AMT) is a tungsten compound widely used in catalysis, electronics, ceramics, and other fields. Its production processes vary, each with unique advantages and suitable applications. 1. Neutralization Method The neutralization method is the most commonly used for producing AMT due to its relatively simple process and low equipment requirements. The process begins with the reaction of tungstic acid (H?WO?) and ammonia water (NH?·H?O), forming an ammonium tungstate solution through a neutralization reaction. Key to this step is controlling…

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Barium Tungsten Electrodes for Mercury Lamps 14

Mercury lamps, a type of high-intensity discharge (HID) lamp, produce ultraviolet or visible light through arc discharge in mercury vapor. They are widely used in street lighting, industrial illumination, and ultraviolet applications such as sterilization and curing. The electrode is a critical component of mercury lamps, and barium tungsten electrodes are commonly employed due to their superior performance in enabling efficient discharge and extending lamp lifespan. 1. Composition and Characteristics of Barium Tungsten Electrodes Barium tungsten electrodes use tungsten as…

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Barium Tungsten Electrode for Xenon Lamp 12

Xenon lamp (xenon flash lamp) is a light source based on the principle of high-voltage gas discharge. The performance of its electrode material directly affects the luminous efficiency, starting speed and service life of the lamp tube. Barium tungsten electrode has become a widely used electrode material in xenon lamps due to its unique physical and chemical properties. I. Characteristics and Advantages of Barium Tungsten Electrode 1. Excellent Electron Emission Performance The work function of barium tungsten electrode is low…

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Barium Tungsten Electrode for X-Ray Tube 18

Barium tungsten electrode is an important innovation of cathode material in X-ray tube, which is composed of tungsten matrix and barium compound. Tungsten provides a high melting point of 3422°C and excellent corrosion resistance, while the addition of barium reduces the work function to 1.6 eV (pure tungsten is 4.5 eV), making electrons easier to emit, and the current density reaches 10 A/cm2, which significantly improves the efficiency of thermal electron emission. In X-ray tubes, barium tungsten electrodes show unique…

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Barium Tungsten Electrodes for Gas Discharge Lamps 12

Gas discharge lamps are lighting devices that generate light through gas discharge, widely used in fluorescent lamps, high-intensity discharge (HID) lamps (such as sodium lamps, mercury lamps, and metal halide lamps), and specialized light sources. One of their core components is the electrode, with barium tungsten electrodes frequently employed in certain gas discharge lamps due to their superior performance. 1. Composition and Characteristics of Barium Tungsten Electrodes Barium tungsten electrodes use tungsten (W), with a high melting point (approximately 3422°C)…

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Barium Tungsten Electrode for Vacuum Tubes 6

The barium tungsten electrode combines the high-temperature resistance of tungsten with the low work function of barium, making it an efficient and stable cathode material for vacuum tubes. Its balance of electron emission efficiency, longevity, and application versatility has led to its widespread use in various high-performance vacuum tube devices. 1. Composition and Structure of Barium Tungsten Electrode The barium tungsten electrode typically uses tungsten as the base material, impregnated with barium compounds. Tungsten provides high-temperature stability and mechanical strength,…

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Barium Tungsten Electrodes in Cathode Ray Tube 5

The Cathode Ray Tube (CRT) is a classic display technology, and one of its core components is the barium tungsten electrode, typically used as the cathode material in the electron gun. This electrode is responsible for efficiently emitting electron beams to generate images. 1. Advantages of Barium Tungsten Electrodes High Emission Efficiency: The low work function of barium significantly enhances electron emission density. This high-efficiency electron emission ensures that CRTs produce clear and stable images during high-speed scanning, meeting the…

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Barium Tungsten Electrodes for Hot Cathode Electron Tubes 5

Barium tungsten electrodes are critical materials in hot cathode electron tubes. Their unique physical and chemical properties make them a preferred solution in the field of electron emission, with extensive applications, particularly indispensable in special lighting sources and high-performance electronic devices. I. Material Properties of Barium Tungsten Electrodes 1. Low Work Function The work function of barium tungsten electrodes is only 1.6 eV, significantly reducing the energy required for electron emission and enabling efficient electron emission at lower temperatures. 2.…

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Applications of Barium Tungsten Electrodes in the Military Industry 6

The applications of barium tungsten electrodes in the military industry are primarily related to their excellent physical and chemical properties, particularly in high-performance welding and the manufacturing of specialized equipment. 1. High-Precision Welding: Due to their low electron work function, high arc stability, and high-temperature resistance, barium tungsten electrodes are commonly used in inert gas shielded welding (TIG welding). In the military industry, these electrodes are widely applied in the manufacturing of high-strength alloys (such as titanium and nickel-based alloys)…

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