Large cast iron platform

Design of Large Cast Iron Platform for DC Generator Performance Motors
When processing large cast iron platforms, black spots may appear. This can be mitigated by reducing the concentration of the spraying agent, switching to an alternative spraying agent, or extending the blowing time after spraying. Uneven distribution of spraying and injection oils, improper positioning, or excessively high ion content in the oxidized molding sand of large cast iron platforms can cause pattern issues. Therefore, it is essential to ensure uniform distribution of spraying and injection oils on large cast iron platforms, avoiding accumulation in localized areas, or configuring high-speed switching to prevent casting defects.
Impact of Hot Sand on Moisture in Sand Casting of Large Cast Iron Platforms: During sand casting, the first step involves feeding hot sand into the molding machine. However, has it been considered that after the large cast iron platform sand enters the equipment, moisture loss will be significant? This situation will inevitably greatly affect the performance of the molding sand for large cast iron platforms.

During the nodularization process of large cast iron platforms, it is not only necessary to strictly control the chemical composition but also to manage the tapping temperature and iron flow rate appropriately. The timing and reaction duration of the nodularizing agent must be strictly regulated during the nodularization of large cast iron platforms. During the inoculation process, based on actual working conditions and while ensuring pouring temperature and nodularization effects,分批多次加入 inoculant to the large cast iron platform can achieve excellent inoculation results.
According to the friction speed and contact pressure wear curve of large cast iron platforms, the wear amount is highest when the wear speed is v=0.3–0.5 m/s. This range is referred to as adhesive wear. During operation, the movement speed of workpieces on large cast iron platforms falls within this range, which contributes to the formation of patterned wear on the scraped contact surfaces of large cast iron platforms.
Strengthening the inoculation of large cast iron platforms can improve the roundness of graphite spheres. Using inoculants can enhance the roundness of graphite spheres. When using cast iron chips from large cast iron platforms for nodularization treatment, the formation of钝化石墨核心 similar to dispersed non-dissolved graphite phases can create prolonged concentration fluctuations, significantly increasing nucleation rates and thereby improving the roundness of graphite spheres in large cast iron platforms. Maximizing the degree can further enhance the roundness of graphite spheres.
Under uniformly distributed loads, the deformation is only 0.024 mm, fully meeting the requirements for most welding and assembly processes. The assembled precision is high, with hole tolerances in large cast iron platforms guaranteed within 0.05 mm. This high precision will be reflected in the products processed by users, making such large cast iron platforms suitable as reference platforms for inspection tools.
Using chill plates on large cast iron platforms can improve the roundness of graphite spheres. Employing chromite sand can also enhance the roundness of graphite spheres. Other measures that facilitate共晶转变 during the solidification of nodular iron in large cast iron platforms can improve the roundness of graphite spheres. Precautions for initial melting in new furnaces for large cast iron platforms: Only after high-temperature sintering can a good sintered layer be formed. The sintering layer temperature should be 40–60°C higher than the melting temperature of cast iron (exceeding 1500°C, up to 1600°C). The high-temperature sintering duration should be 2–3 hours. Prolonged high-temperature sintering may also cause lining erosion. Therefore, both the duration and temperature of high-temperature sintering for large cast iron platforms must be strictly controlled.
The technology for large cast iron platforms must continuously improve to meet increasingly stringent customer requirements. Generally, the nodularization rate must reach 90–95%, which demands high roundness of graphite spheres to meet these standards. Heavy rare earth magnesium nodularizing agents for large cast iron platforms can improve the roundness of graphite spheres better than light rare earth magnesium nodularizing agents, primarily due to their stronger desulfurization capability. With well-controlled processes for light rare earth magnesium nodularization and the addition of trace elements, the roundness of graphite spheres can also be enhanced. The冲入法 (pouring method) yields higher quality molten iron compared to the转包法 (ladle transfer method), thus also improving the roundness of graphite spheres.
Weiyue Machinery, Ms. Xie, 15350773479