scholarly journals A methodology for mould conformal cooling channels optimization exploiting 3D printing

2021 ◽  
Author(s):  
Edoardo Battista Arrivabeni ◽  
Daniele Tomasoni ◽  
Luca Giorleo ◽  
Maurizio Claudio Barbato
Keyword(s):  
3D Printing ◽  
Design Procedure ◽  
Optimization Procedure ◽  
Experimental Tests ◽  
Conformal Cooling ◽  
Testing Procedures ◽  
Cooling Channels ◽  
Conformal Cooling Channels ◽  
Push Forward ◽  
3D Printed

With the advent of 3D printing, it is now possible to produce any part or system with an approach than makes design much deeply interlaced with production. In this scenario, CAE has gained power thanks to the possibility of thinking and then manufacture ideas that go well beyond what was possible in the past. This design approach is perfectly suitable to push forward mould conformal cooling performance. In this work, a coupling of CAD, CFD and 3D printing supported by experimental tests was applied to define a design procedure for conformal cooling channels. In particular, cooling channels for a mould were engineered via CAD, then tested via CFD and, after an initial optimization procedure, the chosen design was 3D printed in specimens suitable to be mounted on a heat exchanger (HX) experimental test rig that was especially adapted for the scope. Fluids temperature, volume flow rates and heat transfer performance were measured. A feedback loop was considered to link measurements and channels redesign. Results together with design and testing procedures are reported and commented.

scholarly journals Use of Maraging Steel 1.2709 for Implementing Parts of Pressure Mold Devices with Conformal Cooling System

Materials ◽  
2020 ◽  
Vol 13 (23) ◽  
pp. 5533
Author(s):  
Jarosław Piekło ◽  
Aldona Garbacz-Klempka
Keyword(s):  
Cooling System ◽  
Casting Machine ◽  
Steel Powder ◽  
Experimental Tests ◽  
Test Material ◽  
Conformal Cooling ◽  
Temperature Changes ◽  
Cooling Channels ◽  
Conformal Cooling Channels ◽  
Conventional Solution

In this paper, we present the results of experimental tests and numerical calculations for parts of foundry mold devices made by selective laser melting (SLM). The main aim of this research was to compare the heat conduction efficiency of the conformal and the traditional channel arrangement. The infusion spreader with a conformal channel arrangement and the test material were made with an M2 Concept Laser Cusing machine using 1.2709 steel powder. Temperature changes in the spreaders were compared between conventional and conformal cooling channels using finite element method (FEM) calculations. The position of the so-called “thermal equilibrium isotherm” was determined for both sprue spreaders, which separate the area of the mold with a constant temperature from the zone of cyclic temperature changes. The components of the sprue spreaders in a stress state caused by temperature changes during the operation of the pressure machine were determined using the FEM model. It was found that the cooling system shortened the time of solidification and cooling of the alloy. Based on the analysis of the strength test results and the fracture surface of the samples, the relationship between heat treatment parameters and the strength, hardness, and elongation of the tested material was determined. The sprue spreaders were installed under a pressure machine and tested under production conditions. The use of a sprue spreader with a conformal cooling system shortened the time of a single cycle of the casting machine compared to the conventional solution.

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