Modeling and experimental results of concentration with support material in rapid freeze prototyping

摘要

Purpose - The purpose of this paper is to develop a physics-based model that can predict how a main build material of water interacts with a water-soluble sacrificial support material in the rapid freeze prototyping (RFP) process. Design/methodology/approach - RFP uses water freezing into ice in a layer-by-layer manner as a main build material to create ice structures with complex geometries in a sufficiently cool environment. A eutectic dextrose-water solution is used as a sacrificial support material. The supported areas in an ice structure are removed by placing the fabricated structure in an environment of appropriate temperature. Findings - Two methods of concentration modeling have been developed to predict the interaction between the main and support materials around their interface region. The two models are described in detail and their predictions are compared to experimentally measured data. The experimental height data compared to the simulation result based on the concentration models agrees to within 6 percent for various build ambient temperatures. As ambient temperatures decreased, diffusion between the two materials also decreased. Originality/value - The results obtained from this paper can be used as an aid in building complex ice parts in the RFP process so that minimal interaction between the main and support materials can be attained. An understanding of the interaction occurring during fabrication is provided with the concentration models. The method used to develop the concentration models can be applied to other layered manufacturing processes when using two miscible materials.