Abstract
AbstractThe TC4 titanium alloy powder test piece was prepared by spark plasma sintering. The multi-pass hot deformation of the TC4 titanium alloy was tested by using the Gleeble-1500 experiment machine. Measurement of relative density, X-ray diffraction, optical microscopy, scanning electron microscopy and electron backscatter diffraction were carried out for the TC4 titanium alloy. In order to reveal the evolution of the microstructure, describing its changes systematically is necessary, which has become the focus of this article. The results show that after multi-pass hot deformation, the relative density of the TC4 titanium alloy could reach 99.93%. With the increase in deformation and decrease in temperature, the β-transformed phase was retained, and many fine β-transformed phases were formed between two adjacent lamellar α. During the one-pass hot deformation, the rapid increase in relative density was the main reason for the instability of the flow stress in the stress–strain curve. For two-pass and three-pass hot deformations, more features of dynamic recrystallization and the characteristics of dynamic recovery at high strain rates (5 s−1) could be found. The size of the grains was about 15 µm after the three-pass hot deformation.
Highlights
As a typical α + β titanium alloy, TC4 has the characteristics of good corrosion resistance, high specific strength, light specific gravity and good comprehensive mechanical properties [1,2]
Powder metallurgy (PM) technology with short production cycle and high metal utilization rate has become one of the important methods to reduce the cost of titanium alloy parts to achieve the near-net shape and convenient processing
The stress–strain curve can truly reflect the relationship between the flow stress and strain of the material
Summary
As a typical α + β titanium alloy, TC4 has the characteristics of good corrosion resistance, high specific strength, light specific gravity and good comprehensive mechanical properties [1,2]. The influence of different temperatures on mechanical properties of TC4 titanium alloy after SPS was studied by Sun et al [12] It showed that the relative density was 98.11%, the offset yield strength was 1034.09 MPa, the tensile strength was 1028.14 MPa and the Vickers hardness was 389.7 HV. The changes of density, microstructure evolution and grain refinement behavior of the TC4 titanium alloy during high temperature plastic deformation were observed and analyzed. It provided the experimental basis for theoretical analysis and formulation of hot deformation process parameters. The change of grains was analyzed using electron backscattered diffraction (EBSD)
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