Browsing by Author "Ipek Ayvaz S."
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Item Effect of the Microwave Heating on Diffusion Kinetics and Mechanical Properties of Borides in AISI 316L(Springer, 2020) Ipek Ayvaz S.; Aydin I.In this study, the effect of microwave heating on boride formation and diffusion kinetics in 316L stainless steel alloys was investigated. Boriding was carried out in microwave furnace with 2.9 kW power and 2.45 GHz frequency. Four different boriding temperatures (800, 850, 900 and 950 °C) were used. Boriding was performed for 2, 4 and 6 h for each temperature. Boron layer thicknesses of boride layers were determined by optical microscope. SEM images were taken from the cross sections of the borided samples. Boron activation energy was determined as 244.15 kJ/mol in microwave environment. Two times thicker boride layer was obtained by microwave boriding process compared to the conventional heating process. The mechanical properties of the boride layers formed by microwave boriding (Young’s modulus, hardness, yield strength, residual thermal stress) were determined by nanoindentation tests. © 2020, The Indian Institute of Metals - IIM.Item Tribological and adhesion properties of microwave-assisted borided AISI 316L steel(Walter de Gruyter GmbH, 2022) Ipek Ayvaz S.; Aydin I.In this study, AISI 316L stainless steel alloy samples were borided with powder-pack boriding method using Ekabor II powder with the support of a microwave furnace with a power of 2.9 KW and a frequency of 2.45 GHz. Boriding was carried out at 850, 900 and 950 °C temperatures for 2, 4 and 6 h of operation. A distinct diffusion barrier consisting of Fe-Ni-Si elements was detected in borided samples at 950 °C for 4 and 6 h. As a result of the Daimler Benz Rockwell-C adhesion tests, regions with insufficient adhesion strength were detected in these samples. In other samples, adhesion qualities between boride layers and substrate were in the range of HF1-HF3. The lowest specific wear rates were determined as 5.208 (mm3 Nm-1) × 10-6 and 5.210 (mm3 Nm-1) × 10-6 for the samples borided for 6 h at 850 °C and 4 h at 900 °C, respectively. It was determined that the increase in thickness of the brittle FeB compound increased the wear with the three-body abrasive wear mechanism. © 2021 Walter de Gruyter GmbH, Berlin/Boston.Item Enhancing the wear performance of Ti-6Al-4V against Al2O3and WC-6Co via TiBnlayer produced by boriding(Walter de Gruyter GmbH, 2023) Ipek Ayvaz S.In this study, mechanical and tribological properties of the borided dual-phase α + β type Ti6Al4V titanium alloy were examined. For this purpose, Ti6Al4V alloy samples were borided for 6 h at a temperature of 1100 °C by the powder-pack boriding process. As a result of boriding, a boride layer consisting of TiB2 with a thickness of max ∼25 μm and TiB phases with a thickness of max ∼10 μm was obtained on the Ti6Al4V sample surfaces. As a result of the boride layer's nanoindentation tests carried out using the Berkovich indenter, it was found to have an elastic modulus of 534.255 GPa and a hardness of 36.537 GPa. Wear tests were carried out using the pin-on-disc method under a load of 10 N and with a sliding distance of 1000 m. Whereas the dominant type of wear in non-borided samples was abrasive wear, oxidative mild wear was generally observed in borided samples. In borided samples, as a result of becoming of surface smoother by hard asperities breaking and increasing the actual contact area, the friction coefficients increased. It was determined that with boriding, the wear performance of Ti6Al4V alloy improved ∼46.8 times against the Al2O3 counterpart and ∼4.57 times against WC-6Co counterpart. © 2022 Walter de Gruyter GmbH, Berlin/Boston.