Abstract
Most copper wire is produced using a drawing process. The crystallographic texture of copper wire, which is strongly associated with grain deformation, can have a profound effect on the formability and mechanical and electrical properties. Thus, the ability to predict grain deformation in drawn copper wire could help to elucidate the evolution of microstructure, which could be highly valuable in product design. This study developed a novel method for predicting grain deformation in drawn copper wire based on finite element simulation with flow net analysis. Simple upsetting tests were conducted to obtain flow stress curves for the simulation of the drawing process. Predictions related to grain deformation were compared with those on the micrographs of the drawn copper wire obtained in experiments. In longitudinal and transverse cross-sections of the drawn wire, the predicted and experiment results presented similar trends involving considerable deformation within the grains. This preliminary study demonstrates the efficacy of the proposed method in providing information useful to the prediction of the grain deformation in drawn copper wire.
Highlights
The ability to predict grain deformation in drawn copper wire could help to elucidate the evolution of microstructure, which could be highly valuable in product design
This study developed a novel method for predicting grain deformation in drawn copper wire based on finite element simulation with flow net analysis
Predictions related to grain deformation were compared with those on the micrographs of the drawn copper wire obtained in experiments
Summary
Finite-element simulation [6,7,8] or molecular dynamics simulation [9] can be used to obtain reliable predictions as to the evolution of microstructure in metals. These simulation techniques are able to predict the deformation of grains and thereby elucidate the evolution of microstructure, which can be highly valuable in the subsequent design of products. This study developed a method based on finite element simulation in conjunction with flow net analysis for the prediction of grain deformation in drawn copper wire. Predictions related to grain deformation in drawn copper were compared with micrograph results obtained from experiments
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