Blow Molding Product Design Safety Tests Should Include the Following:

Material Testing: Ensuring the materials used in blow-molded products meet international or domestic standards, such as food-grade or cosmetic-grade standards, etc.
2. Physical Property Testing: Evaluate the blow-molded products' resistance to pressure, bending, and flexing, etc., to ensure they meet customer requirements, such as the shock resistance of sports water bottles.
3. Chemical Performance Testing: Evaluate if blow-molded products change or release harmful substances under various environmental conditions (such as high temperatures, acidity, and alkalinity), e.g., whether the water quality from water dispensers meets relevant standards.
4. Safety Performance Testing: Ensuring that blow-molded products, such as baby bottles, do not pose any harm to users under normal usage conditions and meet safety standards.
5. Label Inspection: Verify that the labels on blow-molded products are clear and legible, and that they display all necessary information, such as manufacturer name, production date, and batch number.
6. Lifespan Testing: Evaluate the lifespan of blow-molded products under normal usage conditions, such as whether the lifespan of plastic drums meets the standard.
7. Environmental Adaptability Testing: Assessing the ability of blow-molded products to adapt to various weather and temperature conditions.
In summary, the blow molding product design safety testing is a comprehensive process that requires consideration of multiple aspects. Through rigorous testing and inspections, we ensure product quality and safety, providing users with high-quality blow molding products.

Blow-molded products are widely used across various industries, particularly in the beverage and packaging sectors, where they are extensively applied. Their use is also prevalent in the toy industry, including the blowing of baby bottles, hollow floating pieces, Christmas lampshades, toy yachts, children's learning bike accessories, and various large toys such as slides and tracks, bases, and more.

As product requirements vary, the focus in product design also differs. For toy products, the emphasis is on safety and physical testing (including pulls, twists, tosses, and stress cracking), while for container products, it's more on requirements for pressure resistance, corrosion resistance, and excellent barrier properties.