Micropipettes play a vital role in the precision operation of scientific research experiments. The boxed 1000ul micropipette has become the first choice of many scientific researchers with its excellent performance and design. The sealing system of the pipette is a highlight. It uses high-quality sealing materials and undergoes precise processing and assembly, so that the pipette can still maintain good sealing performance after long-term use.

The core of the sealing system lies in the selection of sealing materials. The boxed 1000ul micropipette uses industry-recognized high-quality sealing materials. These materials not only have excellent chemical resistance and can resist the erosion of various experimental reagents, but also have excellent wear resistance and elasticity. This means that during the pipetting process, the sealing material can fit tightly to the various parts of the pipette to form an effective seal to prevent liquid leakage and air entry.

More importantly, these sealing materials also have good temperature stability. In scientific research experiments, temperature changes are inevitable. Some experiments may need to be carried out at high temperatures, while others may need to be carried out in low temperature environments. If the sealing material is temperature sensitive, its sealing performance may be affected when the temperature changes, resulting in liquid leakage or air ingress. However, the sealing material used in the boxed 1000ul micropipette can maintain stable sealing performance over a wide temperature range, ensuring the smooth progress of the experiment.

In addition to high-quality sealing materials, the sealing system of the boxed 1000ul micropipette has also undergone precise processing and assembly. During the processing, each sealing component has undergone strict dimensional control and surface treatment to ensure that it can form a tight fit with other components. During the assembly process, the staff used advanced assembly technology and tools to ensure that the sealing system can be properly installed on the pipette and form an effective seal.

This precise processing and assembly not only improves the sealing performance of the sealing system, but also extends its service life. After long-term use, the sealing system of the boxed 1000ul micropipette can still maintain good sealing performance without frequent replacement of sealing components or maintenance. This not only reduces scientific research costs, but also improves experimental efficiency.

The excellent performance of the sealing system is crucial for micropipettes. In scientific research experiments, accurate transfer of liquid is the key to the success of the experiment. If the sealing performance of the pipette is not good, the liquid may leak or evaporate, resulting in deviations in the experimental results. The sealing system of the boxed 1000ul micropipette can effectively prevent this from happening.

Its tight sealing performance ensures the stability of the liquid during the transfer process. Whether it is sucking or discharging the liquid, the sealing system can maintain a constant pressure to prevent liquid leakage or air from entering. This allows researchers to more accurately control the amount of liquid transferred and improve the accuracy of the experiment.

The sealing system of the boxed 1000ul micropipette also has excellent repeatability. During multiple pipetting processes, its sealing performance remains consistent, ensuring the reliability of the experimental results. This is especially important for scientific research projects that require multiple repeated experiments.