G60, as a high-performance lubricant, exhibits excellent high-temperature stability. In high-temperature processing environments, such as the processing of certain engineering plastics that require higher processing temperatures, G60 can maintain its lubricating properties. Its molecular structure is stable and is not easily decomposed or volatilized at high temperatures, continuously forming a uniform and firm lubricating film between the material and the metal surface of the processing equipment. This reduces the coefficient of friction, effectively preventing the material from adhering to the equipment, ensuring a smooth processing process, and avoiding issues such as material degradation and discoloration due to overheating. This is of great significance for maintaining the good appearance and performance of the product.
lubricant G60
PE wax, on the other hand, exhibits distinct thermal properties compared to G60. PE wax demonstrates excellent lubricating effects within the medium to low processing temperature range (typically 120°C - 180°C). It can rapidly migrate to the surface of the processing material, reducing internal friction and promoting material flow. However, as the temperature increases further, PE wax may undergo softening, accelerated volatilization, and a decline in lubricating performance. In high-temperature environments, the intermolecular forces of PE wax weaken, making it difficult to maintain a stable lubricating film. This can lead to increased friction between the material and the equipment, potentially causing processing difficulties and even affecting the uniformity of the internal structure of the product.
lubricant PE WAX
Overall, G60 is more suitable for scenarios with stringent processing temperature requirements and long-term processing at high temperatures; PE wax, on the other hand, excels in areas where processing temperatures are relatively low and cost sensitivity is a factor, such as general injection molding and blow molding processes. Understanding the heat resistance properties of these lubricants can help processing companies make precise selections and optimize their processing techniques.
