Overview of High Purity Alloy Addition Tantalum Block Ta Lump 99.99% Tantalum Ingot
Tantalum (Ta) is a chemical element with the atomic number 73 and is symbolized as Ta on the periodic table. It is a dense, blue-gray, hard, and ductile transition metal. Discovered in 1802 by Anders Gustaf Ekeberg, tantalum is renowned for its high resistance to corrosion and its ability to store and release electrical charges efficiently, making it a critical material in various high-tech applications.
Feature of High Purity Alloy Addition Tantalum Block Ta Lump 99.99% Tantalum Ingot
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Exceptional Corrosion Resistance: Tantalum forms a protective oxide layer that shields the metal from most acids, even at high temperatures, and is virtually impervious to chemical attacks.
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High Melting Point: With a melting point of approximately 3,017°C (5,462°F), tantalum ranks among the metals with the highest melting points, enabling its use in extreme temperature environments.
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Biocompatibility: Tantalum is well-tolerated by living tissue, making it suitable for biomedical implants such as bone replacements and surgical sutures.
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Electrical Conductivity: Although not the best conductor, tantalum has a high capacitance per volume, making it ideal for manufacturing compact capacitors used in electronic devices.
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Ductility: It can be drawn into fine wires and fabricated into various shapes without fracturing, a feature that enhances its versatility in manufacturing.
(High Purity Alloy Addition Tantalum Block Ta Lump 99.99% Tantalum Ingot)
Parameters of High Purity Alloy Addition Tantalum Block Ta Lump 99.99% Tantalum Ingot
The parameter you mentioned, “Ta Lump 99.99% Tantalum Ingot,” is likely referring to a high purity alloy addition of tantalum on a Ta lump, which refers to the formation of a Ta lump material that has been enriched with additional tantalum.
In general, alloying occurs by adding an element or group of elements to a pure metal to create a new compound with improved properties, such as increased strength, melting point, or electrical conductivity. The specific details of how the alloying process is carried out can depend on the materials being alloyed and their desired properties.
For example, Ta is typically used in high-temperature applications where its high melting point and low thermal expansion make it an ideal material for use in heating equipment and other electronic devices. An alloying reaction that adds a small amount of tantalum to Ta would result in a Ta lump that has a higher concentration of tantalum than the original pure Ta material.
The ta lump will have a specific weight, melting point, and electrical conductivity that is determined by the formula: ta lump = ta base + ta alloy. The ta base refers to the initial concentration of tantalum in the Ta lump material, while the ta alloy refers to the amount of tantalum that was added during the alloying process. It’s important to note that the exact value of the ta alloy will depend on the specific alloying recipe used and the characteristics of the Ta lump material being alloyed.
(High Purity Alloy Addition Tantalum Block Ta Lump 99.99% Tantalum Ingot)
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(High Purity Alloy Addition Tantalum Block Ta Lump 99.99% Tantalum Ingot)
