Abstract:

This study also studied the effects of different production synthesis conditions of carbon nanotypes supplemented to titanium (Ti-6Al-4V) powder by the mechanical alloy method on microbuilding, intensity and stretching resistance. The powder produced by mechanical alloy is obtained by cylindrical composite samples by compressing under 250 MPa pressure with a cold isostatic press pattern. Produced raw samples are synthesized under a high purity argon environment and high empty (1.2 10-5 mbar) for a period of 60 minutes at 1275 ° C. Ti-6Al-4V/KNT metal matrix composite coating behavior was studied using the pin-on-disk coating test device. After a variety of thermal processes, a Ti-6Al-4V/KNT alloy has been studied on drilled stretching behaviors. Under appropriate conditions, it has been shown that the supplementary carbon nano tube can reduce the exhaust rate by more than two degrees. A variety of research has been done to link this enhanced stretching performance with supplement rates. Extrusion and stretching data show that the transition from the composite to the Ti-6Al-4V stretching modes adds a clear plus value. In the experimental studies, the resistance to climbing has changed with the v/v carbon nano tube rates added directly to the volume and increased due to the increased supplement rate but with the 5% KNT rate increased in the material as a result of aglomersaton reduced in these properties.

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