Study of the viability of manufacturing ceramic moulds by additive manufacturing for rapid casting

Edwin Ocaña Garzón , Jorge Lino Alves , Rui J. Neto
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引用次数: 8

Abstract

Additive manufacturing (AM) has been considered one of the best processes to manufacture components with complex geometries, many times impossible to achieve with traditional processes, such as moulds with conformal cooling. Binder Jetting (BJ) technology uses an ink-jet printing head that deposits an adhesive liquid, layer by layer, to bind a powder material that can be ceramic, metallic, or other, which allows manufacturing parts to be used in research and industry.

The aim of this work is to study the possibility of using BJ to produce plaster moulds for directly cast metallic parts at a lower cost than with metallic AM processes, using different types of infiltrates and post-processing parameters to improve the mechanical and thermal strength of moulds in order to be able to cast an aluminium alloy. The mechanical and thermal resistance of moulds with a thickness range of 2.5-4 mm were analysed, as well as the surface roughness of metal samples, and compared with those obtained by traditional processes. Although all the moulds had good heat resistance during the casting, some did not have enough mechanical strength to withstand the metalostatic pressure, especially those with walls of 2.5 to 3.5 mm.

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快速铸造用增材制造陶瓷模具的可行性研究
增材制造(AM)被认为是制造复杂几何形状部件的最佳工艺之一,这是传统工艺(如保形冷却模具)无法实现的。粘合剂喷射(BJ)技术使用喷墨打印头,一层一层地沉积粘合剂液体,粘合陶瓷、金属或其他粉末材料,从而使制造部件用于研究和工业。这项工作的目的是研究使用BJ以比金属AM工艺更低的成本生产直接铸造金属零件的石膏模具的可能性,使用不同类型的渗透和后处理参数来提高模具的机械和热强度,以便能够铸造铝合金。分析了厚度在2.5 ~ 4 mm范围内的模具的机械和热阻,以及金属样品的表面粗糙度,并与传统工艺得到的结果进行了比较。尽管所有模具在铸造过程中都具有良好的耐热性,但有些模具的机械强度不足以承受静金属压力,特别是那些壁厚为2.5至3.5 mm的模具。
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