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10ml polystyrene aspirating pipet is made of high-quality polystyrene. Polystyrene has excellent physical and chemical properties, which provides a solid guarantee for the performance of the pipette. It is light in texture, but has good strength, and is not easy to break during routine operations, reducing the risk of experimental interruption due to tool damage during the experiment. Polystyrene has excellent transparency, and users can observe the liquid in the tube intuitively and clearly, whether it is the color change of the liquid, the presence of impurities, or the height of the liquid level, which is particularly important for operations that require accurate judgment of the progress of the experiment.
Excellent chemical resistance
In the laboratory environment, pipettes often need to come into contact with a variety of reagents and solutions. The 10ml polystyrene aspirating pipet shows strong adaptability due to its tolerance to a variety of chemicals. Whether it is common acid and alkali solutions or complex organic reagents, it can remain stable and will not react chemically with these chemicals, thereby avoiding contamination of the transferred liquid and ensuring the accuracy of the experimental results. This chemical resistance allows it to be used in many fields such as chemical analysis and biological experiments, meeting the stringent requirements of different experiments for tools.
Protective advantages of plastic wrapping
In order to ensure the integrity of the pipette during transportation and storage, the 10ml polystyrene aspirating pipet adopts a plastic wrapping design. This design effectively resists possible external impact, friction, and dust and other pollutants. During transportation, it prevents the tube from breaking or the scale from being worn due to collision; during storage, it prevents tiny particles such as dust from adhering to the surface of the tube, thereby preventing these impurities from mixing into the liquid during use and affecting the accuracy of the experiment. This design keeps the pipette in good condition before use, providing reliable guarantee for the smooth conduct of the experiment.
Clear scale for accurate measurement
The pipette body is designed with clear and easy-to-read capacity scales. The scale markings are precisely calibrated, and each scale represents the exact volume of liquid. When the user is performing liquid transfer operations, he can accurately read the current amount of liquid being absorbed or transferred with just a glance, thereby achieving precise control of the amount of liquid. This precision is of decisive significance for experiments that require extremely high liquid dosage, such as microanalysis experiments and dosage configuration in drug development. The 10ml polystyrene aspirating pipet effectively eliminates extremely small differences in liquid volume.
The unique advantage of a smooth inner surface
The inner surface has been specially treated to present an excellent smoothness. This feature brings two significant advantages. On the one hand, after aspirating and transferring liquids, liquid recovery can be achieved to the greatest extent, reducing the amount of liquid remaining on the inner wall of the tube. On the other hand, the smooth inner surface greatly reduces the risk of cross-contamination between different samples. When processing multiple samples in succession, no residual substances from the previous sample will adhere to the tube wall and then mix into the next sample, ensuring the independence and purity of each sample, providing strong support for the reliability of experimental results.
A powerful assistant for liquid distribution
In daily laboratory work, liquid distribution is a frequent and basic operation. With its precise measuring function and convenient operation, the 10ml polystyrene aspirating pipet has become an ideal tool for liquid distribution. Whether adding equal amounts of reagents to multiple reaction vessels or mixing different liquids in a specific ratio, it can easily handle the task. The operator only needs to accurately absorb the required amount of liquid according to the scale, and then smoothly transfer the liquid to the target container. The whole process is simple and efficient, greatly improving the accuracy and work efficiency of liquid distribution.
