Tungsten

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What Is the Solubility of Ammonium Metatungstate in Organic Solvents? 61

Ammonium metatungstate (AMT) is a highly water-soluble tungstate compound, widely used in tungsten chemical industries and catalyst preparation due to its high solubility in water (approximately 300-330 g/100 mL at 25°C). However, its solubility in organic solvents is significantly different, typically much lower or nearly insoluble. Below is an overview of AMT’s solubility in some common organic solvents: Methanol: AMT has relatively low solubility in methanol. Methanol, a polar organic solvent, has lower polarity than water. As an ionic compound,…

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What Is the Solubility of Ammonium Metatungstate in Dilute Acid Solutions? 54

Ammonium metatungstate (AMT) is an important tungsten compound, appearing as a white crystalline powder, primarily used in the production of tungsten powder, tungsten wire, hard alloys, and in fields such as petrochemicals, catalysts, and ceramics. Besides being soluble in water and certain organic solvents, AMT can also dissolve in dilute acid solutions. Dilute acid solutions typically refer to acidic aqueous solutions with a pH range of 2-5. Common acids include dilute hydrochloric acid (HCl), dilute nitric acid (HNO?), dilute sulfuric…

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How Much Ammonium Metatungstate Can Dissolve in Water? 47

The solubility of ammonium metatungstate (AMT) in water is one of its key physicochemical properties, attracting significant attention due to its wide applications in industry, catalyst preparation, and tungsten compound production. AMT exhibits high solubility in water, making it a well-soluble tungstate compound. At 25°C, its solubility is typically around 300 g/100 mL of water, meaning approximately 300 g of AMT can dissolve in 100 mL of water. At 20°C, its solubility in water is less than 2%. The solubility…

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Comparison of Barium Tungsten Electrodes and Lanthanum Tungsten Electrodes 45

Barium tungsten electrodes excel in electron emission efficiency, brightness, and resistance to poisoning, making them suitable for HID lamps, strobe lights, and other similar applications. Lanthanum tungsten electrodes, on the other hand, offer advantages in welding stability, arc column control, and safety, and are widely used in precision welding in the aerospace industry. Below is a detailed comparison: 1. Composition and Manufacturing Process Barium tungsten electrodes are composed of tungsten filaments and a barium-tungsten mixture, with barium added via an…

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Comparison of Barium Tungsten Electrode and Thorium Tungsten Electrode 41

Barium tungsten electrode and thoriated tungsten electrode are two common tungsten-based electrode materials, which are widely used in welding, electric light sources, electronic devices and other fields. The following is a comparative analysis from five dimensions: component characteristics, performance, application field, environmental safety and market trend: I. Composition and Basic Characteristics II. Performance Comparison 1. Electron Emission and Arc Initiation Thorium Tungsten Electrode: Due to the radioactive activation of thorium, it has stable arc initiation and good arc stiffness, suitable…

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Barium Tungsten Electrode for Transmission Electron Microscope 51

Transmission electron microscope (TEM) is a key analytical tool in the fields of materials science, nanotechnology and life sciences. Its core performance depends on the electron emission efficiency and stability of the electron gun. As the core material of the hot cathode electron source, the barium tungsten electrode significantly optimizes the imaging resolution and stability of TEM by reducing the work function and improving the electron emission ability. The barium tungsten electrode is composed of a tungsten matrix and a…

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Barium Tungsten Electrodes for Particle Detectors 41

Barium tungsten electrodes are composite materials made of tungsten and barium oxide. Due to their low work function, high thermal stability, and excellent electron emission properties, they are often used in detector components that require efficient electron emission or signal amplification. A low work function means that electrons can more easily escape from the electrode surface, providing a foundation for efficient electron emission. High thermal stability ensures that the electrode can maintain stable performance in high-temperature environments without easily deforming…

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Barium Tungsten Electrodes for Spectrometers 36

A spectrometer is a precision instrument used for compositional analysis based on the absorption, emission, or scattering properties of substances with light. By resolving composite light into monochromatic components of varying wavelengths, it generates characteristic spectra to enable qualitative and quantitative identification of material compositions. Spectrometers find extensive applications in fields such as material characterization, environmental monitoring, and industrial inspection. A barium tungsten electrode is a high-performance cathode material composed of a tungsten matrix doped with barium. The combination of…

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Barium Tungsten Electrode for Night Vision Equipment 22

Barium tungsten electrode may be used as an efficient electron emission source in night vision equipment, and the photoelectric conversion efficiency is improved by combining the low work function of barium with the stability of tungsten. Its application is mostly seen in traditional or special night vision equipment, especially in scenes that require high current density or specific infrared response. The core component of night vision equipment is the image intensifier, whose main function is to convert weak light signals…

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Barium Tungsten Electrodes for Plasma Generation Devices 24

Barium tungsten electrodes, owing to their unique physicochemical properties, demonstrate extensive application potential in plasma generation devices. As a core electron emission source, their low work function and high current density characteristics provide critical support for the diversified applications of plasma technology. In the field of high-frequency plasma generation, barium tungsten electrodes serve as the core component for maintaining stable operation of high-power plasma. Such devices excite gas ionization through high-frequency electric fields, forming high-temperature and high-density plasma torches widely…

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