Automobile Mold Shaanxi Automobile M3000
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In the process of automotive mold processing, to produce high-quality injection molds, effective temperature control is essential. Therefore, factories usually pay attention to maintaining a higher temperature during production to ensure a smoother production process. However, it is crucial to control the temperature within an appropriate range. If the temperature is too high, the effects during automotive mold processing may not always be beneficial. Often, high temperatures can lead to some negative impacts. For example, the following aspects organized by Jinmatai illustrate the phenomena that can occur due to excessively high temperatures in automotive mold processing.
1. Mechanical thermal deformation
In the automotive mold processing process, if a higher temperature is used, although it better maintains the fluidity of the raw materials, many hydraulic components in the production machinery may expand due to overheating.
2. Oil viscosity reduction
At the same time, we can see that during automotive mold processing, if the temperature is found to be too high, it can easily lead to excessively high oil temperatures inside the machinery, resulting in reduced oil viscosity.
3. Seal deformation
High temperatures during the production process can also easily accelerate the aging of rubber components, as rubber is a heat-sensitive material. If high temperatures are maintained during automotive mold processing, seals made of rubber inside the machinery are more likely to deform and age.
4. Hydraulic oil deterioration
The hydraulic oil used in the equipment can also easily deteriorate due to excessively high temperatures. Once the hydraulic oil oxidizes and deteriorates due to high temperatures, it can precipitate some asphalt-like substances, which directly reduces the service life of the hydraulic oil and can lead to blockages. This can easily clog some gaps or openings, affecting the operation of pressure valves, and may even cause some metal pipes to elongate, bend, or rupture.
In the process of automotive mold processing, to produce high-quality injection molds, effective temperature control is essential. Therefore, factories usually pay attention to maintaining a higher temperature during production to ensure a smoother production process. However, it is crucial to control the temperature within an appropriate range. If the temperature is too high, the effects during automotive mold processing may not always be beneficial. Often, high temperatures can lead to some negative impacts. For example, the following aspects organized by Jinmatai illustrate the phenomena that can occur due to excessively high temperatures in automotive mold processing.
1. Mechanical thermal deformation
In the automotive mold processing process, if a higher temperature is used, although it better maintains the fluidity of the raw materials, many hydraulic components in the production machinery may expand due to overheating.
2. Oil viscosity reduction
At the same time, we can see that during automotive mold processing, if the temperature is found to be too high, it can easily lead to excessively high oil temperatures inside the machinery, resulting in reduced oil viscosity.
3. Seal deformation
High temperatures during the production process can also easily accelerate the aging of rubber components, as rubber is a heat-sensitive material. If high temperatures are maintained during automotive mold processing, seals made of rubber inside the machinery are more likely to deform and age.
4. Hydraulic oil deterioration
The hydraulic oil used in the equipment can also easily deteriorate due to excessively high temperatures. Once the hydraulic oil oxidizes and deteriorates due to high temperatures, it can precipitate some asphalt-like substances, which directly reduces the service life of the hydraulic oil and can lead to blockages. This can easily clog some gaps or openings, affecting the operation of pressure valves, and may even cause some metal pipes to elongate, bend, or rupture.
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