Data-based Probe for Bearing Balls using Design Expert with Biodegradable Media
Subject Areas : advanced manufacturing technology
1 - Department of Aeronautical Engineering,
School of Aeronautics, Rajasthan Technical University, India
Keywords:
Abstract :
[1] Bhagavat, S., Carlos, J., and Kao, C. C., Effects of Mixed Abrasive Grits in Slurries on Free Abrasive Machining (FAM) Processes, International Journal of Machine Tools & Manufacture, Vol. 50, 2010, pp. 843–847.
[2] Bhagavatula, S. R., Komanduri, R., On Chemo-Mechanical Polishing of Silicon Nitride with Chromium Oxide Abrasive, Philosophical Magazine, Vol. 74, No. 4, 1996, pp. 1003-10171.
[3] Chandrasekhar S., Shaw. M. C., and Bhushan, B., Lapping Experiment and Performance Analysis for the Gauge Block, International Journal of Advanced Manufacturing Technology, Vol. 42, 2002, pp. 114-220.
[4] Childs, T. H. C., Mahmood, S., and Yoon, H. J., The Material Removal Mechanism in Magnetic Fluid Grinding of Ceramic Ball Bearings, Proceeding of International Mechanical Engineering, Vol. 208, Bl, 1994, pp. 47-59.
[5] Choi, N. S., Chang, J. Y., Kwak, S. B., and Gu, Ja-Uk., Impact Surface Fractures of Glass Fiber/Epoxy Lamina-Coated Glass Plates by Small Steel-Ball, Composites Science and Technology, Vol. 70, 2010, pp. 2056-2062.
[6] Dhand, D., Singh, S., Experimental Studies in Fine Finishing Of Steel Balls, International Journal of Advanced Multidisciplinary Research, 2017, pp. 105-110.
[7] Kang S. C., Chung, D. W., The Synthesis and Frictional Properties of Lubricant-Impregnated Cast Nylons, Wear, Vol. 239, 2000, pp. 244-250.
[8] Kang, J., Hadfield, M., A Novel Eccentric Lapping Machine for Finishing Advanced Ceramic Balls, Journal of Engineering Manufacture, Proceedings of Institution of Technical Engineers, Vol. 215, 2001, pp. 781-795.
[9] Kang, J., Hadfield, M., Examination of the Material Removal Mechanisms During the Lapping Process of Advanced Ceramic Rolling Elements, Wear, Vol 258, 2004, pp. 2-12.
[10] Komanduri, R., Umehara, N., and Raghunandan, M., On the Possibility of Chemo-Mechanical Action in Magnetic Float Polishing of Silicon Nitride, ASME Journal of Tribology, Vol. 118, No. 4, 1996, pp. 721-727.
[11] Komanduri, R., On the Mechanisms of Material Removal in Fine Grinding and Polishing of Advanced Ceramics, Annals of CIRP, Vol. 44, No. 1, 1996.
[12] Kumar, M., Pratheesh, R., and Babu, R. A., Optimization of Process Parameters in Lapping of Stainless Steel, International Journal of Advanced Manufacturing Technology, Vol. 2, No. 9, 1996.
[13] Lee, R. T., Hwang, Y. C., and Chiou, Y. C., Lapping of Ultra-Precision Ball Surfaces Concentric V-Groove Lapping System, International Journal of Machine Tools and Manufacture, Vol. 46, 2005, pp. 1146-1156.
[14] Malpotra, A., Singh, L., Development of Magnetic Float Polishing Machine for Steel Balls, Journal of Academia and Industrial Research (JAIR), Vol. 3, 2014, pp. 31-35.
[15] Patel, P. J., Sheth, S., and Chauhan, P., Effects of Various Parameters on Spread in Flashing Operation of Precision Steel Ball Manufacturing Process, Procedia Materials Science, Vol. 5, 2013, pp. 2224-2232.
[16] Raghunandan, M., Umehara, N., Noori-Khajavi, N., and Komanduri, R., Magnetic Float Polishing of Advanced Ceramics, ASME, Journal of Engineering for Industry, 1995.
[17] Shimada, K., Wu, Y., Matsuo, Y., and Yamamoto, K., Floatnpolishing Technique Using New Tool Consisting of Micro Magnetic Clusters, Journal of Material Processing Technology, Vol. 162-163, 2005, pp. 691-695.
[18] Xue, Z., Fu, C. A., and Zhang, T., Research on Mechanism of Lapping Balls, Journal of Jiangnan University, Vol. 8, No. 4, 2009, pp. 439-444.
[19] Zhang, J., Li, G., Gao, R., Yan, B., and Xue, H., Dynamic Analysis and Design of Steel-Ball Grinding Machines Based on No-Slip Cases, Jordan Journal of Mechanical and Industrial Engineering, Vol. 8, No. 4, 2014, pp. 207 – 212.
[20] Zhao, G., Hussainova, I., Antonov, M., and Wang, Q., and Wang, T., Friction and Wear of Fiber Reinforced Polyimide Composites, Vol. 301, 2013, pp. 122-129.
[21] Umehara, N., Kirtane, T., Gerlick, R., Jain V. K., and Komanduri, R., A New Apparatus for Finishing Large Size/Large Batch Silicon Nitride (Si3N4) Balls for Hybrid Bearing Applications by Magnetic Float Polishing (MFP), Int. J. Machine Tools Manufacturing, Vol. 46, 2013, pp. 151-169.
[22] Umehara, N., Magnetic Fluid Grinding—a New Technique for Finishing Advanced Ceramics, Annals of CIRP, Vol. 42, No. 1, 1994, pp. 185-188.
[23] Umehara, N., Kato, K., Hydro-Magnetic Grinding Properties of Magnetic Fluid Containing Grains at High Speeds, Journal of Magnetism and Magnetic Materials, Vol. 65, 1987, pp. 397-400.
[24] Umehara, N., Komanduri, R., On the Material Removal Mechanismsin Polishing of Advanced Ceramics, Presented at the Annual Meeting of the Japan Society of Tribologists (in Japanese), 1994.
