Person: OK, ALAADDİN CEM
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OK
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ALAADDİN CEM
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Publication Metadata only Synthesis of SnS2 photocatalyst for photocatalytic hydrogen production(2022-06-30) OK, ALAADDİN CEM; SARIOĞLU, CEVAT; Ok A. C., Sarıoğlu C.Hydrogen could be generated from both renewable and non-renewable sources of energy. Usingnonrenewable energy sources to produce hydrogen will result in greenhouse CO2 gas emissions andcause global warming. Photocatalytic systems for generating hydrogen from solar energy have a greatdeal of potential to solve the global warming problem because of the totally renewable green source ofsun and water. Because of its superior properties, such as a proper and narrow bandgap, betterchemical stability, non-toxic, photo-corrosion resistance, and suitable optimum conduction and valanceband potentials, the tin disulfide (SnS2) photocatalyst has great potential to be used for producing H2from the splitting of water via solar energy. In this study, SnO2 powders were successfully thermallysulfurized to SnS2 powders at 500°C for 24 hours under an Argon (Ar) atmosphere. The XRD analysisverified the hexagonal SnS2 crystals. UV-vis spectroscopy was used to determine the band gap valueof the generated powder, which is 2.24 eV.Publication Metadata only Investigation on structural and tribological properties of borided gear steel after phase homogenization(ELSEVIER SCIENCE SA, 2022) OK, ALAADDİN CEM; Arslan, Mehtap; Ok, Alaaddin Cem; Sireli, Guldem Kartal; Timur, ServetThis study focused on the structural and mechanical characterizations of AISI 8620 gear steel after a novel combined treatment (CRTD-Bor: Cathodic Reduction and Thermal Diffusion based boriding and subsequent PH: phase homogenization). Initially the effects of CRTD-Bor process parameters on the modified layer depth and chemistry were investigated at two sets of experiments as follows i) temperature examinations-15 min of CRTDBor at 950, 1000, 1050 and 1100 degrees C ii) duration investigations - at 950 degrees C for 15, 30, 60 and 120 min of CRTDbor. After that, PH treatment was integrated into CRTD-Bor to obtain industrially-desired monolithic Fe2B coatings. The optimized parameter of the dual treatment was found as 15 min of CRTD-Bor and subsequently 45 min of PH at 1000 degrees C, which resulted in 100 mu m thick sole Fe2B layer having 1600 +/- 100 HV hardness along with the perfect adhesion-HF1 quality. The tribological properties were evaluated by sliding wear tests in pin-on-disc configuration under dry and lubricated conditions. Since the wear in gear systems is of concern, wear tests were conducted to unborided pin/unborided disc, borided pin/unborided disc and borided pin/borided disc tribocouples. For both environments, the unborided tribo-pairs exhibited the highest loss whereas the borided tribo-couples had no measurable wear. Results of tribological tests revealed that the combined treatment successfully improved the wear resistance of the gears working in relative motions.