Effect of Accumulative Strain on Grain Refinement and Strengthening of ZM6 Magnesium Alloy During Continuous Variable Cross-Section Direct Extrusion

doi:10.1007/s40195-015-0245-5

Abstract

Abstract:

In order to study the influence of die combination on continuous variable cross-section direct extrusion (CVCDE) in the extrusion process, the accumulative strain formula is derived, and it can be known that the extrusion ratio of various stages directly determines the size of corresponding stage strain by formula. In this paper, as an example of the two interim dies, three die combinations of different angles and extrusion ratio are designed. Aviation magnesium alloy ZM6 is studied, and the results show that dynamic recrystallization is even more complete when continuous shear deformation occurs, so that the refinement and homogenization of microstructure are obtained. By the use of different die combinations, the accumulative strain increases under the conditions of same total extrusion ratio. Thus, the refined crystalline strengthening effect of extrusion deformation can be further analyzed. Due to the dead-zone defects, the actual accumulative strain decreases significantly and the effect of microstructure and performance improvements also decreases with it. Therefore, the optimal design of die combination is the key to the process and product of CVCDE, which provides a scientific basis for the development of severe plastic deformation.

Key words: Continuous variable cross-section direct extrusion (CVCDE), Die combination, Accumulative strain, Magnesium alloys, Severe plastic deformation

Feng Li, Wei Shi, Nan Bian, Hong-Bin Wu. Effect of Accumulative Strain on Grain Refinement and Strengthening of ZM6 Magnesium Alloy During Continuous Variable Cross-Section Direct Extrusion[J]. Acta Metallurgica Sinica (English Letters), 2015, 28(5): 649-655.

Figures/Tables 9

Fig. 1 Schematic of CVCDE: a schematic of forming, b structure of the die and the interim dies

Table 1 Parameters of the different plans in the experiment

Plan	D (mm)	d ₁ (mm)	d ₂ (mm)	d ₃ (mm)	d ₄ (mm)	d ₅ (mm)	α	β
Plan 1	40	20	28	12	20	6	60°	100°
Plan 2	40	20	28	12	20	6	40°	120°
Plan 3	40	20	28	16	20	6	40°	120°

Table 2 Chemical compositions (wt%) of ZM6 used in the experiment

Zn	Zr	Nd	Cu	Ni	Impurity	Mg
0.2-0.7	0.4-1.0	2.0-2.8	≤0.1	≤0.01	≤0.30	Margin

Fig. 2 Microstructure of billet and sample positions

Fig. 3 Cumulative strain under different plans

Fig. 4 Microstructures of the samples extruded under different plans: a plan 1, b plan 2, c plan 3, d the average grain size

Fig. 5 Dead zone and the streamline distribution under different plans: a plan 1, b plan 2, c plan 3

Fig. 6 Mechanical properties under different plans

Fig. 7 Fracture morphologies of the tensile samples under different plans: a plan 1, b plan 2, c plan 3

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