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Advancement of Model for Examination of Temperature Impact in Radial Ball Bearing Utilizing Grid Technique for Damm Investigation


Affiliations
1 Department of Mechanical Engineering, N.B.K.R.I.S.T., Vidyanagar, Nellore, Andhra Pradesh, India
2 Department of Mechanical Engineering, S V University, Tirupati, Andhra Pradesh, India
     

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The main objective of the paper on Radial Ball Bearing (RBB) to lessen the warmth age on bearing surface and bolster spiral and hub stacking and it can stay away from the warmth age by grating, the wear and force misfortunes brought about by the relative movement between the metal materials. Warmth is produced by the heap position in the bearing framework, which cause the temperature expanding inside the bearing surface and expanded temperatures may offer ascent to untimely disappointments. Along these lines, it is essential to figure the temperature in the orientation because of burden position. Here a summed up model is created utilizing Dimensional Analysis of Matrix Method (DAMM) to assess dimensionless connection between’s the reaction and result parameters for the appraisal of warmth age on the bearing surface on a created test rig. Reaction Surface Methodology (RSM) is utilized for the experimentation and investigate the reliance of different factors on the warmth age of these course. A numerical investigation created in the examination demonstrated the viability of DAMM model along side the adequacy of burden position for location of warmth age on spiral metal roller surface.

Keywords

RBB, DAMM, RSM, Load Position.
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  • Kunes, Josef: Similarity and modelling in science and Engineering, Springer, Cambridge International Science Publishing, 2012.

  • Pinkus, Oscar: The Reynolds Centennial: A Brief History of the Theory of Hydrodynamic Lubrication, ASME Trans., 'Journal of Tribology', vol. 109, no. 1, 1987, 2-15.

  • Cameron, A and Wood, L: The Full Journal Bearing, 'Proceedings of Institution of Mechanical Engineers (London)', vol. 161, no. 1, 1949, 59 - 72.

  • Wilcock, DF and Pinkus, O: Effect of Turbulence and Viscosity Variation on Dynamic Coefficients of Fluid Film Journal Bearings, ASME Transactions, 'Jl. of Tribology', vol. 107, no. 2, 1985, 256-261.

  • Petrusevich AI: Fundamental conclusions from the contact-hydrodynamic theory of lubrication, Izv. Akad. Nauk. SSSR (OTN), vol. 2, 1951, 209.

  • Ocvirk, FW: Short Bearing Approximation for Full Journal Bearings, NACA, TN - 2808, 1952.

  • Oliver, DR: Load Enhancement Effects due to Polymer Thickening in a Short Model Journal Bearing, 'Journal of Non-Newtonian Fluid Mechanics', vol. 30, no. 2-3, 1988, 185-196.

  • Sommerfeld, A: Z. Math. Phy., Gaussian algorithm for solving finite difference equations of Reynolds equation. vol. 50, 1904, 77-155.

  • Wilcock, DF and Pinkus, O: Effect of Turbulence and Viscosity Variation on Dynamic Coefficients of Fluid Film Journal Bearings, ASME Transactions, 'Jl. of Tribology', vol. 107, no. 2, 1985, 256-261.

  • Raimondi, AA and Boyd, J: A Solution for the Finite Journal Bearing and Its Application to Analysis and Design-III, ASLE Transactions, vol. 1, no. 1, 1958, 194-209.

  • Bossmanns, Bernd; Tu, Jay F:A thermal model for high speed motorized spindles, 'International Journal of Machine Tools and Manufacture', vol. 39, no. 9, 1999, 1345-1366.

  • Bossmanns, Bernd; Tu, Jay F:A power flow model for high speed motorized spindles-heat generation characterization, 'Journal of Manufacturing Science and Engineering', vol. 123, no. 3, 2001, 494-505.

  • Li, Hongqi;Shin, Yung C: Integrated dynamic thermos-mechanical modeling of high speed spindles, Part1: Model development, 'Journal of Manufacturing Science and Engineering', vol. 126, no. 1, 2004, 148-158.

  • Jin, Chao; Wu, Bo; Hu, Youmin:Heat generation modeling of ball bearing based on internal load distribution, 'Tribology International', vol. 45, no. 1, 2012, 8-15.

  • Sathiya Moorthy, R and Prabhu Raja, V: An improved analytical model for prediction of heat generation in angular contact ball bearing, 'Arabian Journal for Science and Engineering',vol. 39, 2014, 8111-8119.

  • Takabi, Jafar; Khonsari, MM: Experimental testing and thermal analysis of ball bearings, 'Tribology International', vol. 60, 2013; 93-103.

  • Radivoje M, Mitrović; Ivana D, Atanasovska; Nataša D, Soldat; Dejan B, Momčilović: Effects of operation temperature on thermal expansion and main parameters of radial ball bearings, 'Thermal Science', vol. 19, no. 5, 2015, 1835-1844.

  • Dong, Yanfang; Zhou, Zude; Liu, Zicheng; Zheng, Kai:Temperature field measurement of spindle ball bearing under radial force based on fiber Bragg grating sensors. Advances in Mechanical Engineering, vol. 7, no. 12, 2015, 1–6.

  • Li, W; Tan, QC: Thermal Characteristic Analysis and Experimental Study of a Spindle-Bearing System, 'Entropy', 2016, vol. 18, no. 7, 271, 1-25


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  • Advancement of Model for Examination of Temperature Impact in Radial Ball Bearing Utilizing Grid Technique for Damm Investigation

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Authors

G. Maheedhara Reddy
Department of Mechanical Engineering, N.B.K.R.I.S.T., Vidyanagar, Nellore, Andhra Pradesh, India
V. Diwakar Reddy
Department of Mechanical Engineering, S V University, Tirupati, Andhra Pradesh, India
B. Satheesh Kumar
Department of Mechanical Engineering, N.B.K.R.I.S.T., Vidyanagar, Nellore, Andhra Pradesh, India

Abstract


The main objective of the paper on Radial Ball Bearing (RBB) to lessen the warmth age on bearing surface and bolster spiral and hub stacking and it can stay away from the warmth age by grating, the wear and force misfortunes brought about by the relative movement between the metal materials. Warmth is produced by the heap position in the bearing framework, which cause the temperature expanding inside the bearing surface and expanded temperatures may offer ascent to untimely disappointments. Along these lines, it is essential to figure the temperature in the orientation because of burden position. Here a summed up model is created utilizing Dimensional Analysis of Matrix Method (DAMM) to assess dimensionless connection between’s the reaction and result parameters for the appraisal of warmth age on the bearing surface on a created test rig. Reaction Surface Methodology (RSM) is utilized for the experimentation and investigate the reliance of different factors on the warmth age of these course. A numerical investigation created in the examination demonstrated the viability of DAMM model along side the adequacy of burden position for location of warmth age on spiral metal roller surface.

Keywords


RBB, DAMM, RSM, Load Position.

References