Tungsten

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Chemical Properties of Tungsten Cemented Carbide Balls 3

Tungsten cemented carbide balls are primarily manufactured through a powder metallurgy process using tungsten carbide (WC) and a metal binder (such as cobalt (Co) or nickel (Ni). Their chemical properties are primarily determined by these components. The following is an overview of the chemical properties of tungsten cemented carbide balls: 1. Chemical Stability: High Corrosion Resistance: Tungsten cemented carbide balls exhibit excellent chemical stability to most acids and bases at room temperature. For example, tungsten carbide (WC) exhibits strong corrosion…

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Physical Properties of Tungsten cemented carbide balls 1

Tungsten cemented carbide balls are typically composed of tungsten carbide (WC) with a metal binder such as cobalt (Co). They possess the following key physical properties: 1. High Hardness: Tungsten cemented carbide balls have extremely high hardness, typically ranging from HRA 85-93 (Rockwell hardness) or HV 1200-2000 (Vickers hardness), approaching that of diamond, making them suitable for wear-resistant applications. 2. High Density: Density generally ranges from 13-15 g/cm3, depending on the composition (such as the WC-Co ratio). For example, WC-Co…

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Physical and Chemical Properties of Tungsten Cemented Carbide Balls 1

Tungsten cemented carbide balls (typically made of tungsten-cobalt alloy or other cemented carbide materials) possess the following key physical and chemical properties, making them suitable for industrial applications, cutting tools, bearings, and other fields: 1. Physical Properties Density: High, typically between 14.5–15.0 g/cm3 (depending on the specific composition, such as the WC-Co ratio). Hardness: Extremely high, typically ranging from HRA 85–92 (Rockwell hardness) or HV 1200–1800 (Vickers hardness), with excellent wear resistance. Strength: Extremely high compressive strength (up to 4000–6000…

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Materials and Properties of Tungsten Cemented Carbide Balls 1

Tungsten cemented carbide balls are primarily made of tungsten carbide (WC) and a binder (such as cobalt (Co) or nickel (Ni)) through a powder metallurgy process. They exhibit high hardness, high wear resistance, corrosion resistance, and good compressive strength. The following is a detailed analysis of their materials and properties: I. Material Composition 1. Main Components: Tungsten carbide (WC): The core component of tungsten cemented carbide balls, with extremely high hardness (close to diamond, HRA 85-92), providing excellent wear resistance…

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Characteristics of Tungsten Cemented Carbide Balls 1

Tungsten cemented carbide balls, due to their outstanding performance, are widely used in industrial applications such as precision bearings, valves, abrasive media, and metering instruments. Their high hardness and wear resistance make them outstanding in harsh environments. The basic characteristics of tungsten cemented carbide balls are as follows: 1. High Hardness: Tungsten cemented carbide balls are primarily composed of tungsten carbide (WC) and a binder such as cobalt (Co). Their hardness typically ranges from HRA 85-93 (close to diamond), making…

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What Are Tungsten Cemented Carbide Balls? 1

Tungsten cemented carbide balls are spherical components primarily made from tungsten carbide and a metal binder (such as cobalt) using a powder metallurgy process. They exhibit extremely high hardness, wear resistance, and corrosion resistance. Their unique properties have led to their widespread use in industries such as industry, manufacturing, and precision instruments. I. Properties of Tungsten Cemented Carbide Balls 1. High Hardness: Tungsten cemented carbide balls typically have a hardness approaching that of diamond, with a Vickers hardness of 1500-1800…

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Applications of Tungsten Alloy Discs in Target Material Fields 15

Tungsten alloy discs, with their high density, excellent high-temperature resistance, and corrosion resistance, have wide-ranging applications in the target material field, particularly excelling in advanced manufacturing techniques such as physical vapor deposition (PVD), sputtering coating, and ion beam deposition. As a high-performance target material, tungsten alloy discs play a critical role in industries such as semiconductors, solar cells, display panels, and optical coatings. In the semiconductor industry, tungsten alloy discs are widely used as sputtering targets to deposit tungsten-based thin…

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What Is Tungsten Alloy? 13

The primary component of tungsten alloy is tungsten (W), typically enhanced with elements such as nickel (Ni), iron (Fe), and copper (Cu) to optimize performance. Tungsten boasts a density of 19.35 g/cm3, significantly higher than common materials like steel (approximately 7.8 g/cm3) or aluminum (approximately 2.7 g/cm3). This high density allows tungsten alloy to provide substantial weight in a smaller volume, meeting the stringent space requirements of counterweight designs. Beyond its high density, tungsten alloy excels in high-temperature and corrosion…

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Applications of Tungsten Alloy Discs in Counterweight Fields 10

Tungsten alloy discs, owing to their unique physical and chemical properties, are increasingly widely used in counterweight applications, particularly excelling in high-demand scenarios such as aerospace, automotive industry, precision instruments, and sports equipment. With their high density, high strength, corrosion resistance, and excellent processability, tungsten alloys have become the preferred material for counterweights. In the aerospace sector, counterweight components are crucial for the balance and stability of aircraft. Due to their high density and compactness, tungsten alloy discs are commonly…

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Characteristics of Tungsten Alloy Bars 24

Tungsten alloy, with its comprehensive advantages in density, temperature resistance, and mechanical properties, serves as a bridge connecting traditional industry with high-end manufacturing. From aerospace to medical electronics, from defense security to new energy development, tungsten alloy is continuously expanding its application boundaries through innovations in materials science. The characteristics of tungsten alloy bars include high density, high melting point, high strength, good toughness, and more. High Density: The density of tungsten alloy bars typically ranges from 16.5 to 18.75…

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