Baking Tray Mold Parts

Customized according to drawings, mold processing accuracy reaches ±0.01mm, and the surface flatness of the baking tray is ≤0.05mm, ensuring uniform heating and sealing. One-stop service: providing full-process services from mold parts processing, heat treatment, surface treatment (such as sandblasting, anodizing) to mold assembly and debugging.

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Features
Technical Indicators
Overall Dimension

1. High-Precision Manufacturing Capabilities Dimensional Accuracy: CNC machining can achieve tolerances within ±0.005mm, ensuring that the cavity and core of the baking tray mold are perfectly aligned with the product design, reducing mold trials and improving production efficiency. For example, key dimensions such as the fillet radius and depth of the baking tray edge can be precisely controlled through CNC machining, eliminating manual errors. Surface Quality: Machined surfaces can achieve a roughness of Ra 0.4μm or less. After polishing, they can be directly used for injection molding or die-casting, eliminating subsequent polishing steps and reducing labor costs. High surface quality ensures a smooth surface for the baking tray mold, reducing the risk of food sticking. Adaptability to Complex Structures: Support for multi-axis machining (such as 5-axis CNC) enables the precise molding of complex structures such as beveled tops, sliders, and deep cavities in baking tray molds, meeting design requirements such as multi-angle demolding and uniform heating. 2. Material Compatibility and Durability Wear-Resistant Material Application: Core mold components (such as cores and cavities) are constructed from high-hardness alloy steel (such as H13 and NAK80) or cemented carbide. After CNC precision machining, the surface hardness reaches over HRC50, significantly improving wear resistance and extending the mold life to over 500,000 cycles. Heat Treatment Optimization: After CNC machining, heat treatment processes such as vacuum quenching and nitriding can be performed directly to eliminate internal stress, reduce the risk of mold deformation, and ensure long-term stability. For example, bakeware molds operate in high-temperature environments, and heat treatment can improve their resistance to thermal fatigue.