表面显影陶瓷底漆增强铸件表面亲水性的研究

IF 0.6 4区 材料科学 Q4 MATERIALS SCIENCE, CERAMICS Glass and Ceramics Pub Date : 2023-11-03 DOI:10.1007/s10717-023-00608-3
E. N. Novokreshchennykh, N. P. Uglev
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引用次数: 0

摘要

制造复杂形状的金属零件最有前途的方法是根据失蜡或烧坏模型进行铸造。所使用的熔化材料是蜡与其他有机化合物的复杂组合物,其特点是物理化学和机械性能的高度恒定,因为重复复制关键部件(例如涡轮喷气发动机叶片)的准确性取决于此。蜡模需要在其周围生长陶瓷外壳,其制造精度是获得高质量铸件的决定性因素。由于蜡模型的表面是疏水性的,而涂在模型上的陶瓷浆料是水性的,因此壳技术的一个关键因素是所涂浆料对模型表面的理想润湿性。提高润湿性不仅可以通过在水相中引入特殊的表面活性剂润湿剂来实现,还可以通过改变蜡表面本身的性质,即赋予其亲水性来实现。提出了一种物理修饰蜡模型表面的方法——在蜡模型表面涂上一层薄薄的陶瓷粉末,使蜡模型表面被水相陶瓷悬浮液浸湿。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Enhancement of the Surface Hydrophilicity of Casting Models on Application of the Primer Layer of Ceramic with a Developed Surface

The most promising method for the manufacture of metal parts with complex forms is casting according to lost-wax or burnt-out models. The melted material used is a complex composition of wax with other organic compounds, characterized by high constancy of physicochemical and mechanical properties, since the accuracy of repeated reproduction of critical parts, for example, turbojet engine blades, depends on this. A wax model is necessary to grow a ceramic shell around it, whose manufacturing accuracy is decisive for obtaining a high-quality casting. Since the surface of the wax model is hydrophobic and the ceramic slurry applied to the model is water-based, a critical factor in shell technology is the ideal wettability of the model surface by the slurry applied to it. Improving wettability can be achieved not only by introducing special surfactant wetting agents into the aqueous phase, but also by changing the properties of the wax surface itself, i.e., giving it hydrophilic properties. A method of physically modifying the surface of a wax model is presented — application to it of a thin layer of ceramic powder, which is well wetted by aqueous ceramic suspensions.

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来源期刊
Glass and Ceramics
Glass and Ceramics 工程技术-材料科学:硅酸盐
CiteScore
1.00
自引率
16.70%
发文量
85
审稿时长
6-12 weeks
期刊介绍: Glass and Ceramics reports on advances in basic and applied research and plant production techniques in glass and ceramics. The journal''s broad coverage includes developments in the areas of silicate chemistry, mineralogy and metallurgy, crystal chemistry, solid state reactions, raw materials, phase equilibria, reaction kinetics, physicochemical analysis, physics of dielectrics, and refractories, among others.
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