Advalab manufactures Magnetic Stirrers in various sizes, from portable units to larger, for intense mixing. They operate with minimal noise compared to other mechanical stirrers. Their magnetic field provides consistent stirring motion, reducing the risk of uneven mixing. These units are designed with built-in safety features like over-temperature protection. Our unit comes with adjustable speed settings, allowing users to control the stirring rate. We offer Magnetic Stirrers that are suitable for a broad range of applications in research, development, and industrial processes.
1. What is a Magnetic Stirrer used for?
A Magnetic Stirrer is a laboratory device designed to mix or stir liquids, solutions, or suspensions by generating a rotating magnetic field. This field is created by a rotating magnet within the stirrer unit, which then interacts with a small magnetic stir bar placed inside the liquid. As the magnet spins, it causes the stir bar to rotate, creating continuous agitation of the solution. This process is essential in many laboratory tasks to ensure uniform mixing of substances.
2. How does a Magnetic Stirrer work?
A Magnetic Stirrer works by generating a rotating magnetic field using a motor beneath the container. This field interacts with a magnetic stir bar inside the liquid, causing it to spin and mix the contents. The process occurs without direct contact between the stirrer and the liquid, ensuring contamination-free, continuous mixing. Magnetic stirrers are often adjustable for speed and can also include heating elements for simultaneous stirring and warming of solutions.
3. What are the advantages of using a Magnetic Stirrer over a mechanical stirrer?
Magnetic Stirrers offer several advantages over mechanical stirrers, making them a preferred choice in many laboratory and industrial environments. Unlike mechanical stirrers, magnetic stirrers have no moving parts that contact the liquid, resulting in less wear and tear, as there are no paddles, blades, or shafts that need constant maintenance or replacement. This design also reduces the risk of contamination, as there’s no direct interaction between the stirring mechanism and the solution.