Chengdu Xinkunda Plastic Products Co., Ltd.
Chengdu Xinkunda Plastic Products Co., Ltd.
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PP boards excel in chemical performance. They boast strong resistance to acids, alkalis, and organic solvents, remaining stable without dissolving or releasing toxins when in long-term contact with chemicals. This stability ensures safety in experiments and industrial uses. Their inert nature prevents reactions with most substances, making them reliable for handling various reagents.
Core Performance
PP sheets offer numerous outstanding performance advantages as laboratory instruments. They possess excellent chemical stability, being resistant to corrosion from various chemical reagents such as acids, alkalis, and organic solvents. They will not dissolve, deteriorate, or release harmful substances due to long-term contact with experimental solutions, effectively ensuring the safety and accuracy of experiments. Meanwhile, PP boards have good high-temperature resistance, capable of stable use in environments around 100°C, making them suitable for common laboratory operations like heating and sterilization. Additionally, they are not prone to embrittlement at low temperatures, enabling adaptation to temperature changes in different experimental environments. Moreover, PP boards have a smooth and flat surface, which is not easy to adsorb impurities and microorganisms, facilitating cleaning and disinfection. They can be reused without easily breeding bacteria, meeting the strict requirements for instrument cleanliness in laboratories. At the same time, they are lightweight, have high strength, and good impact resistance, not easily damaged by collisions or drops, and can maintain structural stability for a long time.
Various Applications
In specific laboratory applications, PP boards are commonly seen. For example, they can be used to make basic equipment such as experimental countertops and reagent racks. Utilizing their chemical corrosion resistance and easy-to-clean properties, they ensure the safety and cleanliness of the experimental operation area. They can also be processed into various specifications of experimental containers, such as beakers, test tube racks, and waste liquid collection tanks. Among them, waste liquid collection tanks can efficiently contain and handle various waste liquids generated during experiments, preventing pollution caused by chemical reagent leakage. In addition, in biological laboratories, PP boards can be made into petri dishes, sample storage boxes, etc. With their non-toxic and hygienic characteristics, they provide a suitable environment for the cultivation and storage of biological samples. The linings and baffles inside fume hoods also often use PP boards to enhance the fume hood's resistance to chemical corrosion and extend the service life of the equipment.
Comparison of Different Laboratory Materials
| Material | Chemical Resistance | High-Temperature Resistance | Impact Resistance | Weight | Price (Relative) |
| PP Board | Excellent (resistant to acids, alkalis, organic solvents) | Good (around 100℃) | High | Light | Low |
| Glass | Excellent (but not resistant to strong alkalis and hydrofluoric acid) | High (over 500℃) | Low | Heavy | Medium |
| Stainless Steel | Good (but not resistant to strong acids) | High (over 800℃) | High | Heavy | High |
| Acrylic | Average (easily corroded by organic solvents) | Poor (around 60℃) | Relatively high | Relatively light | Medium-high |
