Abstract:
The cooling channels of a mold for plastic injection have to be as close as possible to the part geometry in order to
ensure fast and homogeneous cooling. However, conventional methods to manufacture cooling channels (drilling) can
only produce linear holes. Selective laser melting (SLM) is an additive manufacturing technique capable to manufacture
complex cooling channels (known as conformal cooling). Nevertheless, because of the high costs of SLM the benefits
of conformal collings are still not clear. The current work investigates two designs of conformal coolings: i) parallel
circuit; ii) serial circuit. Both coolings are evaluated against to traditional cooling circuits (linear channels) by CAE
simulation to produce parts of polypropylene. The results show that if the conformal cooling is not properly designed
it cannot provide reasonable results. The deformation of the product can be reduced significantly after injection but the
cycle time reduced not more than 6%.