Centrifuge tubes factory are a ubiquitous tool in scientific laboratories, playing a crucial role in separating and analyzing substances based on density through centrifugal force. These tubes come in various types and sizes, each designed with specific characteristics that cater to different experimental needs. Understanding these characteristics is essential for researchers to select the right tube for their applications.

Centrifuge tubes are primarily made from either plastic or glass, with each material offering distinct advantages. Plastic tubes, often made from polypropylene, are lightweight, shatter-resistant, and suitable for general laboratory use. They are also disposable, reducing the risk of cross-contamination between samples. In contrast, glass tubes are preferred for applications requiring transparency and resistance to chemical reactions or high temperatures.

Centrifuge tubes vary widely in size, ranging from a few milliliters to over 50 milliliters in capacity. The choice of size depends on the volume of the sample and the centrifuge's rotor compatibility. Larger tubes are useful for processing larger volumes or for isolating substances in bulk, while smaller tubes are suitable for handling smaller samples or precious materials that require careful separation.