Abstract
A Ti-15Mo/TiB metal matrix composite was produced by the spark plasma sintering process at 1400 °C using a Ti-14.25 wt.% Mo-5 wt.% TiB2 powder mixture. The microstructure and mechanical properties of the composite were studied after non-isothermal rolling of specimens heated to 1000 °C to a thickness strain of ~0.7. Transmission and scanning electron microscopy, as well as X-ray analysis were used for microstructure examination; mechanical properties were evaluated using tensile testing and microhardness measurement. In the initial condition, the Ti-15Mo/TiB composite consisted of 8.5 vol.% of TiB needle-like particles heterogeneously distributed within the β matrix. A small volume of fractions of the α″ and ω phases was also found in the microstructure. Microstructure evolution of the composite during hot rolling was associated with dynamic recrystallization of the bcc titanium matrix and shortening of the TiB whiskers by a factor of ~2. The Ti-15Mo/TiB composite after hot rolling showed considerable improvement in ductility without substantial loss of strength and hardness. The hot rolled specimen was not fractured during the compression test even after 45% thickness reduction, while in the initial condition, the compression ductility was 22%. The yield strength for both conditions was quite similar (~1350 MPa). The hot rolled composite also showed some improvement in ductility to ~12% elongation at elevated temperature (500 °C) compared to the initial condition, the tensile elongation of which did not exceed 2%. The observed difference in the mechanical behavior was associated with the presence of the metastable α″ and isothermal ω phases in the initial condition and the more stable α phase in the hot rolled condition.
Highlights
Titanium and titanium alloys are widely used in various industries due to a combination of high specific strength and excellent corrosion resistance [1]
Hot rolling of a titanium matrix ductility and strength were increased in a Ti/TiB composite with 12 vol.% of reinforcements due to a composite with reduction
The aim of thecomposite present work was study the and mechanical properties treatment can improve the ductility of this composite without considerable loss of strength and of a Ti-15Mo/TiB composite after hot rolling and to establish whether thermomechanical treatment hardness
Summary
Titanium and titanium alloys are widely used in various industries due to a combination of high specific strength and excellent corrosion resistance [1]. A promising method of producing relatively abundant specimens of Ti/TiB composites is plasma spark sintering (SPS). During a short heating/cooling withthereby high pressure can result in sintering temperatures achieving considerably increased strength hardness time interval, thereby preserving the fine structure of the initial and powders [8,9]. Hot rolling of a titanium matrix ductility and strength were increased in a Ti/TiB composite with 12 vol.% of reinforcements due to a composite with reduction. Due to a rather high concentration of promising option for use as for the biomedical matrix; this applications alloy, with attractive properties, was developed β stabilizing. The aim of thecomposite present work was study the and mechanical properties treatment can improve the ductility of this composite without considerable loss of strength and of a Ti-15Mo/TiB composite after hot rolling and to establish whether thermomechanical treatment hardness. Composite containing 8.5 vol.% TiB reinforcement was produced by the SPS process at 1400 C
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