Fluorinated Round Bottles
In the storage and transportation of chemicals, the performance of the container is crucial. The good high temperature resistance and chemical resistance of Chemical Thickened HDPE Round Bottle with PP Cap have become the first choice for many industries. The following will explore several key factors that affect the high temperature resistance and chemical resistance of this product.
1. Material properties
HDPE is the main material of this bottle, with good high temperature resistance and chemical corrosion resistance.
High temperature resistance: The high temperature range that HDPE can withstand is usually between 70℃ and 80℃, and it can withstand higher temperatures for a short time. This makes it suitable for storing chemical liquids with large temperature changes.
Chemical corrosion resistance: HDPE has good resistance to a variety of chemicals, including acids, alkalis and organic solvents. This property makes it safe to use in various industrial applications.
The bottle cap is made of PP material, which further enhances the overall performance.
High temperature stability: PP's high temperature resistance is better than many other plastics. It can usually be used for a long time at 100℃, suitable for higher temperature environments.
Chemical resistance: PP is resistant to many chemicals, allowing the bottle cap to effectively protect the internal liquid from external factors.
2. Bottle design
The bottle adopts a thickened design to enhance the overall mechanical strength and durability.
Impact resistance: The thick-walled structure can resist external impact, reduce damage during transportation and use, and ensure integrity even in high temperature environments.
Shape stability: The design takes into account the stability of the shape, and there will be no deformation at high temperatures, thus ensuring the safety of the contents in the bottle.
3. Storage conditions
The temperature and humidity of the storage environment directly affect the performance of the container.
High temperature environment: Under high temperature conditions, if the container is not stored properly, it may affect the performance of the material. Therefore, try to avoid exposing the bottle to extreme high temperatures, which can effectively extend its service life.
Humidity effect: High humidity environment may cause certain chemicals to react faster, which in turn affects the use of the bottle. Therefore, it is equally important to maintain proper humidity.
4. Liquid properties
The properties of the liquid stored in the bottle directly affect the performance of chemical resistance.
Acidity and alkalinity: Strong acids or bases may affect the material, while HDPE has good tolerance to certain concentrations of acid and alkaline liquids. Understanding the chemical properties of the stored liquid can help choose the right container.
Organic solvents: Certain organic solvents may affect HDPE and PP materials. Choosing the right bottle to match the stored liquid is key to ensuring safety and durability.
5. Use and maintenance
Regular inspection and maintenance of the bottle also helps maintain its performance.
Check for wear and tear: Regularly check the surface of the bottle to ensure that there are no scratches, cracks, and other damage, which may affect its temperature and chemical resistance.
Cleaning and maintenance: Keep the bottle clean and wash it regularly with an appropriate detergent to prevent chemical residues and potential reactions.