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Dynamic conformal cooling improves injection molding

Andreas Kirchheim, Yogeshkumar Katrodiya, Livia Zumofen, Frank Ehrig, Curdin Wick

2021The International Journal of Advanced Manufacturing Technology59 citationsDOIOpen Access PDF

Abstract

Abstract To achieve a certain visual quality or acceptable surface appearance in injection-molded components, a higher mold surface temperature is needed. In order to achieve this, injection molds can be dynamically tempered by integrating an active heating and cooling process inside the mold halves. This heating and cooling of the mold halves becomes more efficient when the temperature change occurs closer to the mold surface. Complex channels that carry cold or hot liquids can be manufactured close to the mold surface by using the layer by layer principle of additive manufacturing. Laser powder bed fusion (L-PBF), as an additive manufacturing process, has special advantages; in particular, so-called hybrid tools can be manufactured. For example, complex tool inserts with conformal cooling channels can be additively built on simple, machined baseplates. This paper outlines the thermal simulation carried out to optimize the injection molding process by use of dynamic conformal cooling. Based on the results of this simulation, a mold with conformal cooling channels was designed and additively manufactured in maraging steel (1.2709) and then experimentally tested.

Topics & Concepts

MoldMolding (decorative)Conformal mapMaterials scienceMaraging steelMechanical engineeringLayer (electronics)Process (computing)Surface (topology)Composite materialEngineering drawingComputer scienceEngineeringGeometryMathematicsOperating systemInjection Molding Process and PropertiesAdditive Manufacturing and 3D Printing TechnologiesAdvanced machining processes and optimization
Dynamic conformal cooling improves injection molding | Litcius