Abstract
The paper explores the new method of improving the workability of materials in the dieless drawing processes. The proposed method is based on the implementation of a multi-pass incremental deformation. Moreover, in each pass, strain and strain rate sensitivity of flow stress should be positive and significant. An approach based on the finite element calculation of instability coefficient of plastic deformation and simultaneous modeling of material ductility were applied for prediction of the workability. Two dieless drawing processes have been investigated. The difference was related to the heating system—induction heating and laser heating. FE simulations and experimental tests for three materials, two magnesium alloys (MgCa0.8 and MgNi19) and pure copper were performed. It was shown that the most effective increase in workability by multi-pass deformation can be achieved using laser dieless drawing. This is possible due to the shorter heating area and, as a consequence, the larger strain rate, which leads to better stability of the deformation process.
Highlights
The process of dieless drawing is a stretching of the workpiece with its simultaneous local heating
This paper is dedicated to the study of dieless drawing processes with the purpose to improve the workability of processed materials
The results indicate that in the multi-pass process of dieless drawing by a rational choice of strain in each pass, it is possible to increase workability
Summary
The process of dieless drawing is a stretching of the workpiece with its simultaneous local heating. Tiernan and Hillery [2] performed a theoretical analysis and FE simulation of a dieless drawing of steel wire. They confirmed that during the dieless drawing, there is a complex interdependence between the process parameters. Dieless drawing is widely used for the forming of various categories of products and materials. The application of this method for the production of tubes of the complex cross-section was investigated by Furushima et al [3]. The heating source in the dieless drawing process is usually an electric furnace, an inductor, or a laser beam. Supriadi et al [6] showed that, by dieless drawing, it is possible to vary the stretching and cross-sectional shape of the workpiece along its length
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