反应性合金熔模铸造用陶瓷壳的实验表征

Rui Neto, Teresa Duarte, Jorge Lino Alves, Francisco Torres
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引用次数: 2

摘要

反应性Ti和TiAl合金的熔模铸造要求在面涂层中使用选定的陶瓷,以防止铸造金属与陶瓷外壳之间的反应,避免在金属部件表面形成硬层。本工作旨在研究陶瓷壳成分对其抗弯强度、脆性和尺寸精度等特性的影响。利用扫描电镜对壳的微观结构进行了表征。表面涂层和备用陶瓷壳组成的变化决定了陶瓷壳的强度,以承受铸造阶段具有足够的模具渗透性和导热性,以及对打孔的折衷抵抗。所有对反应性合金感兴趣的非常规陶瓷壳系统,基于气相氧化铝粘结剂和氧化铝砂作为支撑,与基于胶体硅粘结剂和锆石和硅铝酸铝支撑的传统系统相比,具有更高的尺寸稳定性(低收缩或膨胀)。在这项工作中,使用非常规的氧化铝和聚合物粘合剂表面涂层,使用氧化钇面粉和灰泥,然后使用氧化铝备份,可以获得更好的机械强度和更低的脆性。选择合适的陶瓷壳成分,就有可能获得适合铸造钛合金的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental characterization of ceramic shells for investment casting of reactive alloys

The investment casting of reactive Ti and TiAl alloys requires the use of selected ceramics in the face-coat layer to prevent the reaction between the cast metal and ceramic shell, avoiding the formation of a hard layer at the metallic components surface. This work aims to study the influence of ceramic shells composition in some of its characteristics such as flexural strength, friability and dimensional accuracy. The microstructure of the shells was evaluated by SEM. Changes in the face-coat and back-up ceramic shells composition determines the ceramic shell strength to withstand the casting stage with adequate mould permeability and thermal conductivity, and a compromise resistance for knock-out. All the non-conventional ceramic shell systems with interest for reactive alloys, based on fumed alumina binder and alumina sand for the back-ups, present higher dimensional stability (low shrinkage or expansion) compared with traditional systems based on colloidal silica binder and zircon and aluminosilicates back- ups. In this work, better mechanical strength and lower friability were obtained with non-conventional face-coats of alumina and polymer binders, both with yttria flour and stucco, followed by alumina back-ups. Selecting the right ceramic shell composition, it is possible to achieve adequate properties for casting titanium alloys.

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