Why Molybdenum-rhenium Alloys Can Be Used in Space Nuclear Reactors?
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- Category: Molybdenum's News
- Published on 11 September 2023
- Written by Shuxia
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Molybdenum-rhenium (Mo-Re) alloys are considered suitable materials for use in space nuclear reactors for several reasons:
High Melting Point: Mo-Re alloys have exceptionally high melting points, with molybdenum having a melting point of approximately 2,623 degrees Celsius (4,753 degrees Fahrenheit) and rhenium around 3,180 degrees Celsius (5,756 degrees Fahrenheit). This property allows them to withstand the extreme temperatures generated in nuclear reactors, ensuring structural integrity under high-temperature conditions.
Thermal Stability: These alloys exhibit remarkable thermal stability, making them resistant to thermal creep and deformation at elevated temperatures. This is crucial in maintaining the structural integrity and performance of reactor components.
High Strength: Mo-Re alloys possess high tensile strength, which is essential for withstanding the mechanical stresses experienced in a space nuclear reactor, especially during launch and operation in space.
Resistance to Radiation: Space environments expose materials to ionizing radiation from cosmic rays and solar radiation. Mo-Re alloys are known for their resistance to radiation damage, making them suitable for long-duration missions in space where radiation exposure is a concern.
Corrosion Resistance: These alloys are generally resistant to corrosion and oxidation, which is advantageous for maintaining the integrity of reactor components over extended mission durations.
Compatibility with Nuclear Fuels: Mo-Re alloys are compatible with various nuclear fuel forms, including uranium and plutonium compounds. They can serve as structural materials, fuel cladding, or reflectors within the reactor core.
Weight Efficiency: Mo-Re alloys are relatively lightweight compared to some alternative high-temperature materials, which is advantageous for reducing the overall weight of space missions.
High Modulus of Elasticity: Their high modulus of elasticity makes Mo-Re alloys suitable for applications where stiffness and dimensional stability are important.
Longevity: The durability and resistance of Mo-Re alloys to the harsh conditions of space, such as extreme temperatures and radiation, contribute to the longevity and reliability of space nuclear reactors.
Chinatungsten Online is a professional manufacturer of tungsten and molybdenum for nearly thirty years. We can supply various grades of molybdenum-rhenium alloys in customized designs. Please free feel to contact us when you got the purchasing plans.
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