Faculty Publications

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Author: search.filters.author.Kumar, H.Subject: search.filters.subject.Cost effectiveness

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    Influence of additives on the synthesis of carbonyl iron suspension on rheological and sedimentation properties of magnetorheological (MR) fluids
    (Institute of Physics Publishing helen.craven@iop.org, 2019) Aruna, M.N.; Rahman, M.R.; Joladarashi, S.; Kumar, H.
    Magnetorheological (MR) fluid is one of the major constituent element in structural suspensions and damping characteristic in automobile applications. The major drawback is sedimentation in MR fluids, in the present study an attempt has been done to address the sedimentation issue. The synthesis and characterization of MR fluid in combination with clay and additives leads to improvement in sedimentation rate. The four different types of MR fluid were prepared in combination with clay, friction reducing agent and poly-alpha-olefin (PAO) oil naming as MRFp-1, 2, 3 and 4 as tabulated in table 1. The cost effective MRFp-3 shows better result compared to commercially available MR fluid with respect to off/on state shear stress, viscosity. It is also observed that in-house prepared MRFp-3 has better sedimentation than commercially available (LORD-132DG) up to 700 h. © 2019 IOP Publishing Ltd.
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    Design, characterization and control of MR damper for two-wheeler applications
    (Elsevier Ltd, 2022) Devikiran, P.; Shravya, P.; Puneet, N.P.; Kumar, H.
    The research on Automotive systems is always an ongoing process with varied advancements in different sectors. One such sector is suspension system and the recent trends in vehicular suspension has taken a turn towards semiactive suspension considering its salient features like cost effectiveness and low power consumption with variable damping force. This research work presents the design of radial flux Magneto Rheological damper (MRD) with magnetic field analyzed using the FEMM tool. The designed MR damper has fabricated and characterized for modelling the damper in order to simulate the quarter car model of two wheeler rear suspension. The entire simulation was carried out using MATLAB/SIMULINK. © 2022
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    Real-time testing and thermal characterization of a cost-effective magneto-rheological (MR) damper for four-wheeler application
    (Springer Science and Business Media Deutschland GmbH, 2023) Jamadar, M.E.H.; Devikiran, P.; Desai, R.M.; Kumar, H.; Joladarashi, S.
    Recent studies show that the Magento-Rheological (MR) dampers can serve as a suitable replacement for passive dampers on ground vehicles. MR dampers are factory fitted in premium luxury vehicles. However, the high price of these MR dampers has restricted their use to premium vehicles only. The study presented in this article attempts to develop a MR damper, in collaboration with a shock absorber manufacturer, that can replace the existing passive dampers on a passenger van while being more affordable than the commercially available MR dampers. The developed MR damper is subjected to rigorous testing on the damper testing machine to evaluate its damping performance, reliability and thermal performance. The simulation results of the test vehicle model revealed a superior MR damper performance compared to the stock passive damper. The MR damper is later installed on the test vehicle to conduct real-time experiments. The real-time experiments showed that the developed MR damper improved the ride comfort of the test vehicle by 16.2% at 10 km/hr and by 17.6% at 20 km/hr compared to passive dampers while running over a speed bump. The road handling also improved by 14.32% at 10 km/hr and by 29.3% at 20 km/hr. At the end of the study, the cost evaluation performed on the developed MR damper revealed that it was more affordable than the commercially available MR dampers. © 2023, The Author(s), under exclusive licence to The Brazilian Society of Mechanical Sciences and Engineering.
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    Optimization and experimental analysis of a cost-effective magneto-rheological (MR) fluid for application in semiactive suspension of a passenger van
    (SAGE Publications Ltd, 2024) Jamadar, M.E.H.; Devikiran, P.; Kumar, H.; Joladarashi, S.
    The study presented in this article attempts to determine the optimal composition of iron particles in the MR fluid for vehicular application based on the size of the particles, the simulation response of a test vehicle model, and the cost of the fluid. The MRF samples with two different-sized particles in varying compositions are prepared and characterized on a rheometer. The performance of each MRF sample in the semiactive suspension of a test vehicle is determined by simulating its full car model on a random road. The response of the vehicle model during simulation, the size of the particles, the volume fraction of the particles in the carrier fluid, and the fluid’s calculated cost are input for the Response surface optimization technique. The optimization results revealed that the MR fluid with large-sized particles in a 25% volume fraction would be suitable for the said application. Moreover, it was found that the rheological performance of the optimized MR fluid was better than the commercial MR fluid. The performance of the optimized fluid in a MR damper was experimentally evaluated against the stock passive damper of the test vehicle. The results of the experiment on the test vehicle showed that the MR damper improved the test vehicle’s ride comfort by 36.58% over a speed bump and 11.3% on an off-road test track. The road handling was also improved by 45% over a speed bump and 46% over the test track. © IMechE 2023.