Abstract
In injection molding, the reduction of ejection forces is a process relevant aspect to improve the production rates. For this purpose, CrN and CrAlN films were sputtered on cylindrical and quadratic AISI H11 cores of an injection mold in order to investigate their influence on the resulting ejection forces to demold polypropylene test components. Within this context, the ejection forces of the PVD coated cores were compared to those of uncoated cores made of AISI H11. For both the cylindrical and quadratic cores, the as-deposited CrN and CrAlN films exhibit higher ejection forces than the uncoated cores due to the increase of the roughness profile after sputtering. It is known that the ejection forces are directly related to the surface roughness. In order to ensure comparable surface conditions to the uncoated surfaces, and to demonstrate the potential of PVD coated mold surfaces when reducing the ejection forces, the coated surfaces were mechanically post-treated to obtain a similar roughness profile as the uncoated cores. The combination of a PVD deposition and post-treatment ensures a significant reduction of the ejection forces by 22.6% and 23.7% for both core geometries.
Highlights
Among the different plastic processing techniques, injection molding is widely used for the cost-effective mass production of components with complex geometries [1]
The modification of the mold surface in order to decrease the adhesion between the mold and the molded plastic component is one approach to reduce the ejection force
Martins et al investigated the influence of diamond-like carbon (DLC) and tungsten disulfide (WS2) films and determined the ejection forces when demolding polylactic acid and polystyrene (PS) parts from a cylindrical core insert [21]
Summary
Among the different plastic processing techniques, injection molding is widely used for the cost-effective mass production of components with complex geometries [1]. The lower ejection forces result in a reduction of the mechanical stress on the demolded components, so that the part can be released without risking damages after a shorter cooling time. The ejection force is correlated to the shrinkage of the processed plastics and the friction condition between the mold material and the plastic [4].
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