Heavy metal alloys are materials made from a combination of heavy metals, often including elements such as iron, nickel, copper and titanium. These alloys are known for their high density, strength and corrosion resistance, making them useful in a wide range of industrial applications. Some common examples of heavy metal alloys include steel, stainless steel, and superalloys used in aerospace and other high-temperature applications. These alloys are commonly used to produce machinery, tools and structural components that require high strength and durability.
Tungsten copper electrode is a composite material made of tungsten and copper. These electrodes are known for their excellent thermal and electrical conductivity, high melting point, and resistance to wear and corrosion. Adding tungsten to copper increases its hardness, strength and high temperature resistance, making it suitable for demanding applications such as resistance welding, electrical discharge machining (EDM) and other electrically and thermally conductive applications.
Tungsten copper electrodes are commonly used in manufacturing processes such as spot welding, projection welding and seam welding, where their high thermal conductivity and wear resistance are crucial. Additionally, they are used in electrical discharge machining to form complex shapes in hard materials.
High-density alloy is a material with higher mass per unit volume. These alloys are typically composed of heavy metals such as tungsten, tantalum, or uranium, which contribute to their high density. High-density alloys are valued for their ability to deliver weight and mass in a compact form, allowing them to be used in a variety of applications. They are commonly used in aerospace, defense, medical and industrial environments where their unique properties are highly beneficial. For example, high-density alloys are used for radiation shielding, counterweights, ballast, and applications that require high quality and compact size.