PYREX® Centrifuge Tube, graduated, with conical base
- Manufactured from borosilicate glass 3.3
- Graduated 0 - 3ml in 0.1ml divisions and 3 - 10ml in 0.5ml divisions
- Centrifuge tube with white enamel graduations
- Can be centrifuged up to 3000 RCF values
Products
| Catalog No | Diameter (mm) | Length (mm) | Capacity (mL) | Remarks | Quantity | |
|---|---|---|---|---|---|---|
| 3460/02M | 17 | 110 | 12 | Highest graduation mark: 10 mL | 40 | Find a distributor |
Specifications
Product specifications are found on the product detail pages. Click on the product catalog number in the table above to view the individual product specifications.
Product Overview
One of the most important basic process engineering methods is the separation of mixtures of substances. This working method includes centrifugation, which exploits the concept of mass inertia. A mixture of substances to be separated is filled into centrifuge tubes, placed in a centrifuge and rotated. Due to the high rotation speed, heavier particles are pushed outwards faster and further away than the lighter ones. This results in separation based on the mass or density of the individual material components.
Products
Products
| Catalog No | Diameter (mm) | Length (mm) | Capacity (mL) | Remarks | Quantity | |
|---|---|---|---|---|---|---|
| 3460/02M | 17 | 110 | 12 | Highest graduation mark: 10 mL | 40 | Find a distributor |
Specification
Specifications
Product specifications are found on the product detail pages. Click on the product catalog number in the table above to view the individual product specifications.
Product Overview
Product Overview
One of the most important basic process engineering methods is the separation of mixtures of substances. This working method includes centrifugation, which exploits the concept of mass inertia. A mixture of substances to be separated is filled into centrifuge tubes, placed in a centrifuge and rotated. Due to the high rotation speed, heavier particles are pushed outwards faster and further away than the lighter ones. This results in separation based on the mass or density of the individual material components.
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