Faculty Publications
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Item Failure Analysis of Cooling Tower Fan-Arm(Springer, 2020) Padasale, B.; Kumar, J.K.R.; Sondar, P.R.; Cadambi, S.; Hegde, S.R.This work presents failure investigation of cooling tower fan-arms commissioned in a chemical processing plant. The analysis aims at understanding the mechanism and root-cause of the failure. The investigation involves site visits, microstructural analysis, fracture surface analysis, hardness measurements, numerical stress analysis and experimental simulation. Work concludes that the fan-arms failed due to the lack of post-weld heat treatment, which caused localized stress-corrosion and pitting at critical locations that served as crack initiation sites. Fatigue loading condition and presence of residual stresses at the weld enabled easy propagation of cracks that led to recurring premature failure. Based on the root-cause and the mechanism identified in this analysis, proper pre-heating and post-weld heat treatment is recommended to relieve the residual stresses at the critical locations and thus to avoid/minimize such recurring failures in future. © 2020, ASM International.Item Failure analysis of a fire water jockey pump shaft(Elsevier Ltd, 2022) Padasale, B.; Kulkarni, G.S.; Rakshan Kumar, J.K.; Cadambi, S.; Hegde, S.R.This work presents failure investigation of a fire water jockey pump shaft that is installed in the fire-station of a petrochemical plant. The jockey pump is driven by a 130 kW motor at about 1480 RPM whose shaft and the coupling key are made of 40C8 steel and 55C8 steel respectively. The drive-shaft of one of the pumps fractured after running for approximately 110 h, while its twin remained functional. The failure analysis involves visual inspection, hardness measurements, metallography, fractography, analytical design calculations, and numerical stress analysis. The analysis concludes that usage of square-ended key in the round-ended keyway is the primary cause, and usage of dissimilar materials for the shaft and the key is the secondary cause for the premature failure. The present work recommends a modified key design and use of the same grade of steel for both the shaft and the key to avoid such failures in the future. © 2022 Elsevier LtdItem Failure of Soap Extruder Bolt Assembly(Springer, 2023) Kumar, J.K.R.; Mogra, N.; Padasale, B.; Dsilva, P.C.; Sondar, P.; Hegde, S.R.Present work investigates failure of EN8 steel bolt in a bolt–pin assembly that was used as a fastener in an industrial soap extruder. Unexpectedly, EN19 steel pin that is supposedly the sacrificial element in the assembly remained intact. The investigation follows standard failure-analysis procedure comprising, site-visit, visual inspection, metallography, mechanical-testing, design-analysis, numerical stress-analysis, and fractography. The design-analysis finds that the materials of construction were mistakenly swapped between the pin and the bolt that caused plastic-deformation, necking, and eventual failure of the bolt during operational peak-loading condition. The numerical stress analysis illustrates that the bolts failed at the thread-root region that acted as the stress-raiser. Additionally, the investigation finds that poor-quality machining left-behind jagged thread-root profile that increased the stress-concentration furthermore. The metallography and the fractography indicate that a transverse crack that was initiated at poorly machined thread-root led to the brittle fracture of the bolt. The investigation illustrates how human errors can cause recurring failure of critical components leading to production losses and makes suitable recommendations to prevent such failures in the future. © 2023, ASM International.