New Molding Material Recipe Eliminates Veining.
Veining is and remains annoying, not only because the reworking on the surface or on the inner contours of castings always requires a complex post-processing and drives up production costs. For many casters, it is also a personal disappointment after all the preparations in the core manufacturing process and subsequent casting, to come across the annoying casting errors when unpacking the casting.
ExOne has been intensely involved with the task of combining furan together with a classic silica sand and a number of different additives.
Particularly convincing results have been shown by the use of furan resin in combination with sand and a mineral additive. In test experiments, silica sand in combination with furan binder has achieved a higher elasticity due to the addition of the additive. This has completely avoided the typical rupture of the sand core surface in high temperature stressed places, such as the inner contours of the castings, when casting the hot cast material. As a result, the industrial test object, in this case a typical impeller from the pump industry, could be cast without any signs of veining.
In principle, when casting with steel, several factors responsible for the expansion of the sand core surface meet. The expansion of the silica sand results in the quartz inversion. High casting temperatures cause fast quartz conversion and thus lead to increased stresses in the molded part. But the grain size and grain distribution of the silica sand also has an influence on the surface behavior, because a higher degree of uniformity leads to higher stresses, since all silica grains pass through the transformation temperature at the same time. Thus, all the basic components of a typical sand mold have low ductility, and when the hot metal is poured, there is a high pressure on the surface of the sand mold. The liquid, hot metal surrounding the core after casting causes a temperature gradient between the surface and the center of the core, which is explained as a consequence of structural characteristics of the mold base material. Silica sand, for example, extends linearly up to approximately 752F (400C) and then shows a sudden increase in the temperature range of the reversible-transformation and thus increases the stresses.
Instead of being able to compensate for the pressure due to material flexibility, the rigid property of the sand-binder mixture causes cracks in the surface. The mixture of sand and furan binder, thus organically bonded moldings, gives way and forms surface cracks. The liquid metal now flows into these very fine surface cracks. The fact that silicon dioxide expands in the mold cavities causes the filling of the casting metal in the resulting gap.
Then, with the removal of the casting from the sand mold, the imprint of the previous cracks on the surface will rise, forming a rib-like, vein-like crust, protruding from the smooth surface.
In technical terms, one speaks of thin, irregular metallic protuberances, which occur primarily on the inner contours of a casting mold or in angles, corners and edges of the castings.
The aim of the ExOne test series was to avoid these irregular metallic protuberances. The development department meticulously tested all possible combinations of ExOne certified sands together with the furan binder and various additives. The "benchmark" was to eliminate veining.
The refined FS003 sand with a reduced packing density and thus a smaller tension, in contrast to the FS001 sand, was able to achieve a 50% reduction in veining (Fig. 1).
When blending furan with synthetic sand, no veining could be detected in the test series. With an addition of 2% of the additive, only about 10% of the usual veining effect, as it normally arises, remained. If the addition of the additive is increased from 2% to 4%, i.e. twice the amount, then the end product, which is free from veining, was reliably reproducible, as in the furan-sand mixture.
Caption: Fig. 1. The refined FS003 sand with a reduced packing density and thus a smaller tension, in contrast to the FS001 sand, was able to achieve a 50% reduction in veining.
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|Title Annotation:||CASTING INNOVATIONS|
|Date:||Dec 1, 2018|
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