Featured Lab Milling and Grinding Products
- Cole-Parmer$22,100.85CAD / Each
- Cole-Parmer$16,059.95CAD / Each
Are you ready to rock your sample preparation game? Milling and grinding are the secret weapons in your lab arsenal to get your samples in tip-top shape for analysis. Whether you’re working on research or industrial projects, getting high-quality and pure samples is crucial for accurate and reliable results. So, let’s dive into the world of milling and grinding and discover what you need to know to get the job done like a pro.
So, whether you need to grind samples at ultra-low temperatures, crush hard materials with rotating rings and pucks, or achieve rapid size reduction with high-energy impacts, there’s a laboratory mill for you.
Just remember to follow proper safety protocols, choose the right mill for your specific applications, and get ready to rock your sample prep game in the lab.
Need help choosing the right mill or grinder? Contact us.
You’ve likely heard the saying, "garbage in, garbage out.” Well, the same applies to your samples! The quality of your sample preparation sets the stage for the accuracy and reliability of your analysis. Milling and grinding are the first steps in creating a sample that's ready for the next stages in your workflow. By reducing the size of your sample particles, you can achieve a homogenous and representative sample that's ideal for analysis.
Take the time to choose the right milling and grinding methods and equipment, follow proper sample handling and safety protocols, and consider your specific application and sample characteristics. With the right approach, you'll be well on your way to obtaining high-quality and pure samples for your research or industrial projects.
In summary, when it comes to milling and grinding for sample preparation, keep these key considerations in mind:
Cryogenic mills use liquid nitrogen or other cryogenic gases to cool down the grinding chamber to ultra-low temperatures, typically below -150 °C. This extreme coldness helps in brittle and heat-sensitive materials, such as plastics, rubber, and biological samples, where maintaining sample integrity is crucial. Cryogenic mills are ideal for preserving the chemical and physical properties of samples, and they can produce fine and uniform particles with minimal thermal degradation.
These mills consist of a stationary ring and a rotating puck that crushes, grinds, or pulverizes materials between them. They are commonly used for pulverizing hard and brittle materials, such as rocks, minerals, and ceramics. Ring and puck mills are versatile and can achieve a wide range of particle sizes, making them suitable for various applications, including sample preparation for X-ray fluorescence (XRF), X-ray diffraction (XRD), and elemental analysis.
If you're looking for some high-octane grinding action, high-energy ball mills are the way to go! These mills use balls or beads to crush, grind, or impact materials with high kinetic energy, resulting in rapid and efficient size reduction. High-energy ball mills are commonly used for grinding hard and brittle materials, such as metals, alloys, ceramics, and minerals. They are also used for mechanical alloying, mixing, and homogenization of various materials. High-energy ball mills are known for their speed, intensity, and ability to produce ultra-fine particles in a short amount of time.
What is the difference between grinding and milling in a laboratory?
The difference between grinding and milling is like the distinction between shredding and chopping. Grinding involves the use of abrasive materials or grinding media to reduce the size of particles, while milling typically refers to the use of mechanical force or pressure to break down materials into smaller particles.
What lab equipment is used for grinding?
There is various lab equipment used for grinding, depending on the specific application and desired particle size. Common examples include ball mills, swing mills, and jaw crushers.
Check out the Freezer/Mill® Cryogenic Grinders
Principles of Sample Preparation by Grinding or Comminution
Getting Cryogenics Down Cold