Please use this identifier to cite or link to this item: https://idr.l4.nitk.ac.in/jspui/handle/123456789/14573
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dc.contributor.advisorDesai, Vijay H.-
dc.contributor.advisorRamesh, M. R.-
dc.contributor.authorBadiger, Pradeep V.-
dc.date.accessioned2020-09-23T09:40:33Z-
dc.date.available2020-09-23T09:40:33Z-
dc.date.issued2019-
dc.identifier.urihttp://idr.nitk.ac.in/jspui/handle/123456789/14573-
dc.description.abstractThe fretting and adhesive wear behavior of Ti, Al and Fe based thin solid films deposited on MDN121 steel substrate are studied. Plasma-assisted cathodic arc evaporation technique is used to develop TiC-C, Ti/TiN/TiCN/TiN/TiCN, AlCN/AlC and FeCrN coatings. FESEMEDS, nanoindentation and Raman spectroscopy are used to characterize the coatings. The fretting and adhesive wear tracks are investigated using an optical profiler, confocal microscopy and electron microscopy. The diamond-like carbon (DLC) is observed in both the coatings. Developed coatings exhibit better mechanical properties with increase in hardness by 24.5 % in TiC-C and 29.4 % in Ti/TiN/TiCN/TiN/TiCN, 8.70 % in AlCN/AlC and 50.79 % in FeCrN coatings compared to the uncoated SNMG120408 WC substrate. During fretting wear analysis, TiC-C coating is exhibited lower coefficient of friction (COF) compared to Ti-multilayer coating. Similarly, FeCrN coating exhibited lower coefficient of friction (COF) compared to AlCN/AlC coating. The volumetric wear loss of TiC-C monolayer coating is better than the multilayer coating. The volumetric wear loss of FeCrN coating is better than AlCN/AlC coating. The wear surface morphology revealed abrasive form of fretting wear mechanism in all coatings whereas galling failure in the substrate. During adhesive wear analysis, TiC-C coating exhibited lower coefficient of friction (COF) compared to Ti-multilayer coating. Similarly, FeCrN coating exhibited lower coefficient of friction (COF) compared to AlCN/AlC coating. TiC-C, Ti/TiN/TiCN/TiN/TiCN, AlCN/AlC and FeCrN coatings exhibited low friction and high wear resistance. Tungsten carbide cutting tool inserts are coated with customized composition of Ti/TiCN/TiN/TiCN/TiN (multilayer), TiC-C AlCN/AlC and FeCrN (monolayer) thin films using cathodic arc evaporation technique. Quality characteristics of coatings are evaluated using calo and VDI3198 tests. Thickness of the coatings are found to be in the range of 1.1-1.8 µm and adhesion quality of HF1 is attained. Machinability of highly alloyed steel MDN431 is studied using the coatings developed on SNMG120408 inserts. The iiiperformance of coated tool inserts are evaluated using cutting speed (59-118 m/min), feed rate (0.062-0.125 mm/rev) and depth of cut (0.2-0.4 mm) as process parameters in turning MDN431 steel. Experiments are conducted based on full factorial design and regression analysis is used to analyze the cutting forces and surface roughness. Optimization of the process parameters has been done with the combination of desirability approach and PSO technique. Optimum machining condition for least cutting force and least surface roughness are obtained at the condition of Vc=118 m/min, f=0.063 mm/rev and ap=0.2 mm for Ti-multilayer coatings, Vc=59 m/min, f=0.063 mm/rev and ap=0.2 mm for TiCC coatings, Vc=75 m/min, f=0.063 mm/rev and ap=0.3 mm for AlCN/AlC coatings and Vc=118 m/min, f=0.063 mm/rev and ap=0.2 mm for FeCrN coatings. ANN modeling has been adopted in order to improve the coefficients of determination (COD) and capability of predictive regression models. ANN trained model and mathematical regression models predict the responses, which follows the experimental data with minimum absolute error. The predicted results are validated with minimum error and developed models are adequate for further their usage. Tool wear was reduced by 3 times in Ti-multilayer, 3 times in TiC-C, 3.62 times in AlCN/AlC and 1.63times in FeCrN coated tools compared with commercially available uncoated WC-Co inserts (SNMG120408).en_US
dc.language.isoenen_US
dc.publisherNational Institute of Technology Karnataka, Surathkalen_US
dc.subjectDepartment of Mechanical Engineeringen_US
dc.subjectTi-based thin filmsen_US
dc.subjectmonolayer and multi-layeren_US
dc.subjectFretting wearen_US
dc.subjectAdhesive wearen_US
dc.subjectDiamond-like carbonen_US
dc.subjectcathodic arc evaporationen_US
dc.subjectAl-coatingen_US
dc.subjectFe-coatingen_US
dc.subjectSuperalloy machiningen_US
dc.subjectPVDen_US
dc.subjectFull factorial-optimizationen_US
dc.subjectANN modelingen_US
dc.subjectANN modelingen_US
dc.titleInvestigations on Characteristics and Performance of Hard Thin Films Developed by Cathodic Arc Evaporationen_US
dc.typeThesisen_US
Appears in Collections:1. Ph.D Theses

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