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Efficient production: Blow molding technology is characterized by high speed and high efficiency, and can complete the production of a large number of products in a short time, which is of great significance to meet the market demand for children's car booster pads.
Reduced costs: During the blow molding process, less raw materials are consumed and no complex molds are required, which reduces production costs. For manufacturers, this means that more competitive prices can be offered while maintaining high product quality.
Dimensional stability: Blow molding technology uses high-pressure gas to blow molten plastic into the mold, so that the plastic material is quickly cooled and shaped under the action of high-pressure gas. This molding method ensures the dimensional stability and shape consistency of the product, allowing the children's car booster pad to accurately adapt to the size and shape of different car seats.
Controllable wall thickness: The blow molding mold is composed only of a female mold. The wall thickness of the product can be changed by simply adjusting the die gap or extrusion conditions. For children's car booster pads, this means that the wall thickness of the product can be adjusted according to actual needs to meet different safety performance and comfort requirements.
Complex shape: Blow molding technology can produce complex, irregular and integral products. This allows the children's car booster pad to be designed with a shape that is more ergonomic and in line with children's usage habits, improving the comfort and safety of the product.
High-quality materials: Blow-molding grade plastics (such as PE) have a high relative molecular mass, so blow-molded products have high impact toughness and resistance to environmental stress cracking. This means that the children's car booster pad can withstand greater impact and pressure, and is not prone to cracking or damage during use.
Low residual stress: During the blow molding process, the parison is formed by the die under low pressure and blown under low pressure, so the residual stress of the product is small. This makes the children's car booster pad more stable and reliable during use, and is not prone to deformation or cracking.
