Overview of Epoch 211 Series Max Phase Nb2AlC Powder with Niobium Aluminum Carbide and 60687-94-7 for Mxene Nb2C Material
Niobium, often found in conjunction with tantalum minerals, is primarily extracted as a byproduct of tin and tantalum mining. Its chief ores include pyrochlore and columbite. Once refined, niobium becomes highly versatile, finding application in alloys, superconductors, and various high-tech materials.
Feature of Epoch 211 Series Max Phase Nb2AlC Powder with Niobium Aluminum Carbide and 60687-94-7 for Mxene Nb2C Material
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Superior Strength and Lightness: When added to steel in small quantities (typically less than 1%), niobium significantly enhances the strength and toughness of the alloy while reducing its weight, making it ideal for aerospace and automotive applications.
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Corrosion Resistance: Like tantalum, niobium forms a passive oxide layer that protects it from corrosion, making niobium-based alloys suitable for use in harsh environments.
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Superconductivity: Niobium exhibits excellent superconducting properties when cooled below its critical temperature of about 9.2 K (-264°C or -443°F). This property makes it the primary material for superconducting magnets used in MRI scanners and particle accelerators.
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Magnetic Properties: Niobium is paramagnetic at room temperature but becomes strongly diamagnetic when cooled, meaning it repels magnetic fields. This characteristic is exploited in certain specialized applications.
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Ease of Fabrication: Despite its strength, niobium is easily formed, welded, and machined, facilitating its use in complex engineering designs.
(Epoch 211 Series Max Phase Nb2AlC Powder with Niobium Aluminum Carbide and 60687-94-7 for Mxene Nb2C Material)
Parameters of Epoch 211 Series Max Phase Nb2AlC Powder with Niobium Aluminum Carbide and 60687-94-7 for Mxene Nb2C Material
The epoch number you mentioned is 211, which means that this is the second epoch of the “Project Euclid” mission, which was launched in 2005 to study the properties of materials at extreme conditions. The epoch 211 series refers to a specific sample from this dataset, specifically the one containing the maximum phase (also known as the maximum temperature or maximum energy release) under the given conditions.
In terms of the powder, it appears to be composed of Niobium aluminum carbide (Nb2AlC) and an additional material (60687-94-7). This could refer to the composition of the powders used in various experiments or applications. Without more information about the specific research being performed, it’s difficult to provide a detailed analysis of its properties.
However, it’s worth noting that the characteristics of the materials in the experiment can have significant implications for their behavior and performance under different conditions. For example, the maximum phase can play a crucial role in determining the mechanical stability and thermal conductivity of the material. It may also affect its resistance to certain chemical reactions or transformations. Therefore, understanding the properties of these materials can provide valuable insights into their potential use in various applications.
(Epoch 211 Series Max Phase Nb2AlC Powder with Niobium Aluminum Carbide and 60687-94-7 for Mxene Nb2C Material)
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(Epoch 211 Series Max Phase Nb2AlC Powder with Niobium Aluminum Carbide and 60687-94-7 for Mxene Nb2C Material)
