A method for the simulation of temperature stabilsation in the tools during multi-cycle cold-forging operations

Previous analyses of material flow and temperature history during cold forging mostly referred to a particular manufacturing cycle of the forging; temperature changes in the tools with the number of manufacturing cycle were not examined. Repeating full-scale, coupled thermo-mechanical plastic-flow s...

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Bibliographic Details
Published in:Journal of materials processing technology 1999-04, Vol.107 (1-3), p.252-259
Main Authors: Qin, Y, Balendra, R, Chodnikiewicz, K
Format: Article
Language:English
Online Access:Get full text
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Summary:Previous analyses of material flow and temperature history during cold forging mostly referred to a particular manufacturing cycle of the forging; temperature changes in the tools with the number of manufacturing cycle were not examined. Repeating full-scale, coupled thermo-mechanical plastic-flow simulation to effect the analysis of temperature changes during multi-cycle operations is impracticable. An alternative strategy was, therefore, used for developing a simplified procedure to effect the analysis. The approach was to combine coupled thermo-mechanical FE plastic simulation and heat transfer analysis to define heat-flux-density functions across die/workpiece interfaces. The functions were then used for initiating heat transfer analysis on the die with the repeated heat-loading for the given cycles. Since only heat transfer anlaysis was required for the die for the multi-cycle analysis, high-efficiency of the computation was achieved.
ISSN:0924-0136