PTFE Magnetic Stir Bar Snowflake Shape Acid and Alkali Resistant Laboratory different sizes
KEY ATTRIBUTES
|
Product name |
PTFE Magnetic Stir Bar- Cross |
|
Application |
Laboratory, chemical |
|
Main purpose |
Experimental solvent stirring |
|
Material |
Magnet, PTFE |
|
Color |
White |
|
Specification |
6*25mm--8*32mm |
|
Shape |
Snowflake shape |
|
Composite |
NdFeB Magnet |
|
Processing Service |
Moulding |
|
Place of Origin |
Zhejiang, China |
|
Design |
OEM Acceptable |
|
Packing |
Carton |
|
Feature |
High Temperature Resistance |
|
Characteristic |
Strong Acid and Alkali Resistance |
Packaging and delivery
|
Packaging Details |
1. Standard carton package 2. Support customization |
|
Port |
Ningbo/ Shanghai |
Lead time
|
Quantity(Pieces) |
Lead time(days) |
|
1-500 |
5-10 days |
|
>500 |
Confirmed by email |
Samples
|
Maximum order quantity: |
5 piece |
|
Sample price: |
USD 5.00 per piece |
Customization Size
|
Min order qty |
10000pcs |
Product Description
1. Chiling Lab Strong Stir Bar Magnet With PTFE Coating Magnetic Stirrer Snowflake type Laboratory
2. When using PTFE Snowflake Magnetic Stir Bars in a laboratory environment, there are some important precautions and usage guidelines that should be followed to ensure safety and effectiveness. First, make sure the stir stick is compatible with the chemicals involved. Although it is designed to be resistant to acids and alkalis, certain corrosive solvents may still pose risks.
3. Before you begin, make sure the stir bar is clean and free of contaminants to avoid unwanted reactions. Choose an appropriate stirring speed; too fast a speed may cause splashing or vortex formation, which may compromise the integrity of the sample. The snowflake shape improves mixing efficiency, but it must be used in a container for optimal movement without risk of breakage.
4. Monitor the temperature of the solution as overheating can damage the stir rod and sample. After use, clean the stir bar thoroughly with an appropriate solvent to maintain its longevity and performance. Store it in a safe place to prevent physical damage. Following these guidelines will improve the safety and efficiency of laboratory work, ensuring reliable and accurate mixing results for a variety of scientific applications.
