Abstract
The evaluation of micromilled parts quality requires detailed assessments of both geometry and surface topography. However, in many cases, the reduced accessibility caused by the complex geometry of the part makes it impossible to perform direct measurements. This problem can be solved by adopting the replica molding technology. The method consists of obtaining a replica of the feature that is inaccessible for standard measurement devices and performing its indirect measurement. This paper examines the performance of a commercial replication media applied to the indirect measurement of micromilled components. Two specifically designed micromilled benchmark samples were used to assess the accuracy in replicating both surface texture and geometry. A 3D confocal microscope and a focus variation instrument were employed and the associated uncertainties were evaluated. The replication method proved to be suitable for characterizing micromilled surface texture even though an average overestimation in the nano-metric level of the Sa parameter was observed. On the other hand, the replicated geometry generally underestimated that of the master, often leading to a different measurement output considering the micrometric uncertainty.
Highlights
In recent decades, the demand for micro components has steadily increased in many engineering sectors such as biotechnology, avionics, medicine, automotive, etc. [1,2]
The aim of this paper is to evaluate the performance of a commercial silicone replication media (RepliSet [19], Struers®, Ballerup, Denmark) in the indirect measurement of micromilled surfaces and geometries made from mold steel
The present paper investigated the replication performance of a commercial silicone replica media applied as an indirect measurement tool for micromilled components
Summary
The demand for micro components has steadily increased in many engineering sectors such as biotechnology, avionics, medicine, automotive, etc. [1,2]. Inaccessible features are typical in micro molds for injection molding applications, where high aspect ratio features must often be replicated [11,12,13] In such cases, new solutions must be employed to perform dimensional and surface measurements without adopting destructive inspections. Replica molding technology is the most promising one This method is based on the replication of inaccessible features by means of casting-like soft polymeric media such as polydimethylsiloxane (PDMS) or two-component silicone polymers [4]. The aim of this paper is to evaluate the performance of a commercial silicone replication media (RepliSet [19], Struers®, Ballerup, Denmark) in the indirect measurement of micromilled surfaces and geometries made from mold steel. The performance in replicating both surface topography and geometry was assessed separately using two different benchmark samples
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