new material
CuZnAl Shape Memory Alloy (CuZnAl) is a high-performance material known for its excellent shape memory properties, corrosion resistance, and thermal stability. This alloy is widely used in various industries, including aerospace, medical devices, and robotics, where it serves in critical components exposed to demanding environments. Its unique properties make it ideal for applications requiring flexibility, durability, and high performance.
Product Overview
CuZnAl Shape Memory Alloy is a functional material with a temperature-induced shape memory effect. It undergoes a shape change upon heating or cooling, making it especially suitable for applications that require temperature sensing and actuation. The unique properties of CuZnAl alloys make them widely applicable across various industries, particularly in devices such as alarms and overheating protection systems, where they offer significant advantages.
Features
- Temperature-Induced Shape Memory Effect: The alloy can return to its preset shape at a specific temperature, offering excellent temperature response characteristics.
- Reusability: Unlike fusible alloys, CuZnAl shape memory alloy can be used repeatedly, offering a long service life.
- High Displacement: Compared to bimetallic strips, shape memory alloys provide larger displacement at the same size, offering greater actuation strength.
- Three-Dimensional Movement: The alloy can perform complex movements such as twisting and bending, making it suitable for various structural designs.
- High Return Force: The shape memory alloy has a significant return force, enabling it to combine temperature sensing and actuation functions, providing superior performance.
Applications
- Alarms: Used in alarm systems as a temperature sensing and actuation component, providing reliable response.
- Overheating Protectors: Applied in electrical devices for temperature control and overheating protection, automatically adjusting or cutting off circuits to prevent damage.
- Automatic Control: Widely used in smart home systems, temperature control devices, and as an actuation component in various fields.
- Precision Machinery: Used in precision equipment that requires temperature-driven actions, ensuring high accuracy and reliability.
- Temperature-Driven Components: Suitable for various parts that require temperature sensing and actuation, such as temperature control switches and automatic adjustment devices.
