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    How do you know which zinc-aluminum alloy process?

    For this type of die-casting, do you know which processes belong to the surface treatment of aluminum alloy die-casting parts? I will introduce it in detail today. I hope you can read this article.
    Four surface treatment methods for aluminum alloy die castings
    1. Aluminum phosphating
    The effects of accelerator, fluoride, Mn2+, Ni2+, Zn2+, PO4, and Fe2+ on the phosphating process of aluminum were studied by SEM, XRD, potential-time curve and membrane weight change. Studies have shown that cerium nitrate has the characteristics of good water solubility, low dosage and rapid film formation, and is an effective accelerator for phosphating of aluminum: fluoride can promote film formation, increase membrane weight and refine grains; Mn2+, Ni2+ can be obvious Refinement of crystal grains makes the phosphating film uniform and dense and can improve the appearance of the phosphating film; when the concentration of Zn2+ is low, film formation or film formation is not good. As the concentration of Zn2+ increases, the film weight increases the O4 content to the phosphating film. The impact is greater and the PO4 is improved. The content causes the phosphating film to increase in weight.
    2, aluminum alloy surface treatment technology
    Aluminum alloys are widely used in structural parts of automobiles and motorcycles. The material needs to be surface treated prior to application to improve its corrosion resistance and form a surface layer that is easily bonded to the organic coating to facilitate subsequent surfaces.
    3, aluminum and aluminum alloy environmentally friendly chemical polishing
    It is determined to develop a new environmentally friendly chemical polishing technology based on phosphoric acid monosulfate, which is to achieve zero emission of NOx and overcome the quality defects of similar technologies in the past. The key to the new technology is to add some special-effect compounds to the base fluid instead of nitric acid. To this end, it is necessary to first analyze the chemical polishing process of aluminum tri-acid, especially the role of nitric acid. The main role of nitric acid in the chemical polishing of aluminum is to suppress pitting corrosion and improve polishing brightness. Combined with the chemical polishing test in simple mono-phosphoric acid, it is believed that the special substances added in the mono-phosphoric acid should be able to suppress pitting corrosion and alleviate general corrosion, and must have good leveling and brightening effects.
    4. Electrochemical surface strengthening treatment of aluminum and its alloys
    The process, properties, morphology, composition and structure of aluminum-like alloys in the neutral system were formed by anodizing and depositing in a neutral system. The film formation process and mechanism of the film were preliminarily discussed. The results of the process research indicated that in the neutral mixed system of Na_2WO_4, the concentration of the film-forming accelerator was controlled to 2.5-3.0 g/l, the concentration of the complex membrane was 1.5-3.0 g/l, and the concentration of Na_2WO_4 was 0.5-0.8 g/l. The peak current density is 6~12A/dm~2, and weak agitation can obtain a complete and uniform gray series inorganic non-metal film layer. The film layer has a thickness of 5 to 10 μm and a microhardness of 300 to 540 HV, and is excellent in corrosion resistance. The neutral system has good adaptability to aluminum alloys, and various types of aluminum alloys such as rust-proof aluminum and forged aluminum can form a good film.
    5. Aluminum alkaline electropolishing process
    The research on the alkaline polishing solution system was carried out, and the effects of corrosion inhibitors and viscosity agents on the polishing effect were compared. The alkaline solution system with good polishing effect was successfully obtained, and the operating temperature and the extended solution were obtained for the first time. An additive that has a long life and an improved polishing effect. The experimental results show that adding a suitable additive to the NaOH solution can produce a good polishing effect. Exploratory experiments also found that the surface reflectance of aluminum can reach 90% after DC constant pressure electropolishing with NaOH solution of glucose under certain conditions, but there are still unstable factors in the experiment, which needs further study. The feasibility of using DC pulse electropolishing method to polish aluminum under alkaline conditions was explored. The results show that the pulse electropolishing method can achieve the leveling effect of DC constant pressure electropolishing, but its flattening speed is slow.