DP3312 AlMoNbTaTiZr High-Entropy Alloy (HEA)

AlMoNbTaTiZr High-Entropy Alloy Description

Unlike most current alloy materials, high-entropy alloys are alloy materials that contain equimolar or approximately equimolar elements. Most of the existing alloys are based on the main material, doped with a small number of other materials, for example, steel is composed of 0.2%-2.1% carbon in iron. Randomly miscible solids are the typical structure of high-entropy alloys. At present, the structure of FCC, BCC, and HCP is found. In addition, there are many thermodynamic and kinetic factors that affect the formation of the structure, and the amorphous phase will also be formed in the alloy.

AlMoNbTaTiZr High-Entropy Alloy Specification

AlMoNbTaTiZr High-Entropy Alloy Applications

Turbine Components: The alloy's high melting point and resistance to oxidation make it suitable for turbine blades, engine components, and other parts exposed to high thermal stresses.

Chemical Resistance: Due to the diverse elements in AlMoNbTaTiZr alloys, they exhibit outstanding resistance to corrosion in aggressive environments. This makes them ideal for chemical processing equipment, marine environments, and seawater applications, where materials are exposed to harsh corrosive conditions.

Hardness and Durability: AlMoNbTaTiZr HEA demonstrates high hardness and wear resistance, making it useful in applications that require durable materials, such as cutting tools, bearings, and mold inserts.

AlMoNbTaTiZr High-Entropy Alloy Packaging

Our AlMoNbTaTiZr High-Entropy Alloy is carefully handled during storage and transportation to preserve the quality of our product in its original condition.

FAQs

Q1: What is AlMoNbTaTiZr High-Entropy Alloy?

AlMoNbTaTiZr is a high-entropy alloy composed of six principal elements: aluminum (Al), molybdenum (Mo), niobium (Nb), tantalum (Ta), titanium (Ti), and zirconium (Zr). These elements are typically present in near-equal molar proportions, resulting in a multi-phase, high-entropy structure that contributes to the alloy's exceptional mechanical, thermal, and corrosion resistance properties.

Q2: What are the key properties of AlMoNbTaTiZr HEA?

High Strength: The combination of multiple elements in AlMoNbTaTiZr HEA results in high hardness and strength, particularly at elevated temperatures.

Excellent High-Temperature Stability: This alloy performs well at extreme temperatures, maintaining its mechanical properties under heat.

Outstanding Wear and Corrosion Resistance: The alloy’s unique composition grants it excellent resistance to wear and corrosion, making it suitable for harsh environments.

Q3: Why is AlMoNbTaTiZr considered a high-entropy alloy?

AlMoNbTaTiZr is considered a high-entropy alloy because it consists of multiple elements (six in this case) in near-equal proportions, leading to an increase in the entropy (disorder) of the system. This high-entropy composition results in a material that exhibits a combination of unique properties not found in traditional alloys, such as improved mechanical performance and stability under extreme conditions.