단종 (단종) NC7031 니켈-망간-갈륨 자기 형태 기억 합금 (Ni-Mn-Ga MSMA)

Nickel-Manganese-Gallium Magnetic Shape Memory Alloy (Ni-Mn-Ga MSMA) Description

Nickel-Manganese-Gallium Magnetic Shape Memory Alloy (Ni-Mn-Ga MSMA) is a specialized ferromagnetic material exhibiting significant magnetically induced strain, rapid response, and high reliability for advanced technological applications. It provides large reversible strains under magnetic fields with swift actuation speeds, ideal for precision actuators, sensors, and robotic components.

Due to its remarkable magnetic shape memory effect, Ni-Mn-Ga alloys are extensively utilized in aerospace, robotics, biomedical, and automotive industries. Stanford Advanced Materials offers Ni-Mn-Ga MSMA in rods, plates, foils, and customized forms, ensuring tailored solutions for diverse industrial needs.

Nickel-Manganese-Gallium Magnetic Shape Memory Alloy (Ni-Mn-Ga MSMA) Applications

• Magnetic Actuators: Utilized in advanced actuators requiring precise and rapid displacement control.
• Sensors: Ideal for sensors requiring high sensitivity and rapid response under varying magnetic fields.
• Robotics: Essential for robotic components that demand swift, repeatable, and reliable movement.
• Biomedical Devices: Applied in medical implants and therapeutic devices due to their biocompatibility and precise control capabilities.
• Aerospace: Deployed in aerospace mechanisms requiring precise, reliable, and lightweight actuation.

Nickel-Manganese-Gallium Magnetic Shape Memory Alloy (Ni-Mn-Ga MSMA) Packing

Stanford Advanced Materials ensures that the Ni-Mn-Ga MSMA alloys are carefully packaged and handled to maintain product quality during storage and transportation.

• Standard Packaging: cushioned and securely packed in wooden or cardboard boxes. Customized packaging available upon request.

Frequently Asked Questions

What is Magnetic Shape Memory Alloy (MSMA)?
Magnetic Shape Memory Alloys (MSMA) are materials capable of producing large deformation under magnetic fields, making them ideal for actuator and sensor applications.

How does Ni-Mn-Ga MSMA work?
Under the application of a magnetic field, Ni-Mn-Ga alloys undergo a structural transformation, generating large strains that can be precisely controlled.

What industries utilize Ni-Mn-Ga MSMA?
These alloys are widely used in robotics, aerospace, automotive, medical technology, and sensor technologies.

Can Ni-Mn-Ga MSMA be customized?
Yes, Stanford Advanced Materials provides Ni-Mn-Ga alloys in customized forms, including rods, plates, and foils, tailored to specific industrial applications.