Studying wear behavior of Ni-Ti- Ag shape memory alloy synthesized by P T

Abstract EN

Because of the unique properties, Ni-Ti based shape memory alloys (SMAs) are increasingly attractive for a wide variety of engineering applications such as actuators, biomedical, or robot coupling.

In this work, a third alloying element, namely nanoparticles of Ag (which is insoluble in Ni-Ti matrix), is added by powder technology to the Ni-Ti alloy to produce a Ni-Ti-Ag alloy.

The Nanoparticles of the Ag element are added at 3, 5, 7, and 10 wt.

% to produce four alloy specimens with different mixtures.

The mixing process was done by a horizontal mixer for 120 min with a speed of 350 rpm, and then the mixture was compacted by using a compacting pressure of 600 MPa.

Afterward, the compacted specimens were sintered at 600/min for 6 hrs.

Scanning electron microscopy (SEM) and X-ray diffraction (XRD) were used to evaluate the microstructure and phases of the products.

DSC examination was used to characterize the phase transformation temperatures in heating and cooling.

Wear behavior was defined by using the pin-on-disc technique, and the hardness of the samples was calculated using Vickers's hardness apparatus.

The results of this work showed that the nano-Ag added at 7 and 10 wt.

% were distributed homogeneously in the Ni-Ti matrix, and that Ag slightly decreased hardness and increased the wear rate.

The value of shape memory effect (SME) for the produced alloy was about 89.9% and the phase transformation in heating was at a temperature of about 186.48 and in cooling of about 140.3 for the specimen that contains 10 wt.

% Ag Ni-Ti alloy to produce a Ni-Ti-Ag alloy.

The Nanoparticles of the Ag element are added at 3, 5, 7, and 10 wt.

% to produce four alloy specimens with different mixtures.

The mixing process was done by a horizontal mixer for 120 min with a speed of 350 rpm, and then the mixture was compacted by using a compacting pressure of 600 MPa.

Afterward, the compacted specimens were sintered at 600/min for 6 hrs.

Scanning electron microscopy (SEM) and X-ray diffraction (XRD) were used to evaluate the microstructure and phases of the products.

DSC examination was used to characterize the phase transformation temperatures in heating and cooling.

Wear behavior was defined by using the pin-on-disc technique, and the hardness of the samples was calculated using Vickers's hardness apparatus.

The results of this work showed that the nano-Ag added at 7 and 10 wt.

% were distributed homogeneously in the Ni-Ti matrix, and that Ag slightly decreased hardness and increased the wear rate.

The value of shape memory effect (SME) for the produced alloy was about 89.9% and the phase transformation in heating was at a temperature of about 186.48 and in cooling of about 140.3 for the specimen that contains 10 wt.

% Ag nanoparticles.