A Complex shaped crucible frame structure modelling and finite element analysis for stress and deformation

  • Authors

    • N V. Dhandapani
    • R Manimaran
    • V C. Uvaraja
    • R Sridhararan
    2018-03-19
    https://doi.org/10.14419/ijet.v7i2.8.10546
  • Frame structure, Finite element analysis, ANSYS
  • Crucible frame structures are otherwise called as complex frame structures and its study is needed for further improvement in the emerging technology. The frame structure are frequently used an operational system support of  other mechanisms of a physical construction and/or steel frame that limits the assembly's extent in this study crucible frame structures are analysed using Finite element analysis and the results are expected in terms of safety for actual use. Based on ANSYS Software, the crucible structure can be meshed (discretized into several parts are called elements). At last, we can apply the boundary conditions and calculate its maximum deformation by applying various loads.

  • References

    1. [1] Sharaban Thohura,Shahidul Islam, “Study of the Effect of Finite Element Mesh Quality on Stress Concentration Factor of Plates with Holes†Vol 3, Issue 6, December 2013.

      [2] Huston,Ronald,Harold Josephs,â€Practical Stress Analysis in Engineering Designâ€, 3rd ed. Boca Raton, FL: CRC Press, Taylor & Francis Group, 2009.

      [3] T. Allan Haliburton Hudson Matlock,†A finite-element analysis of structural framesâ€,vol 3,pp 54-62,june 2008.

      [4] D.Walter,F.Deborah,â€Stress Concentration Factorsâ€, 3rd ed. New York: John Wiley & Sons, 2008.

      [5] V.Marcadon E.Pereira,â€Fatigue crack onset detection and observation at high temperature on notched cobalt-base superalloys specimens and fatigue lifetime predictionâ€,vol 3,pp 1-7,2016.

      [6] C.Warren,G.Richard,â€Roark’s Formulas for Stress and Strainâ€,8th ed. New York: McGraw-Hill, 2012.

      [7] Dev Dutt Dwivedi1, V. K. Jain2,†design and analysis of automobile leaf spring using ansysâ€,vol 2,pp 22-29,November 2012.

      [8] S. V. Kumbhar,"Low Cycle Fatigue Analysis of after Treatment Device Induced due to Thermal Load by Using Finite Element Analysis", Applied Mechanics and Materials, Vols. 592-594, pp. 1104-1108, 2014

      [9] T. Govardhan,"Load Distribution in a Rolling Element Bearing under Dynamic Radial Load", Applied Mechanics and Materials, Vols. 592-594, pp. 1099-1103, 2014

      [10] H.B.Coda,W.S.Venturini,M. H. Aliabadi,†A general 3D BEM/FEM coupling applied to elastodynamic continual frame structures interaction analysisâ€.

      [11] 1.Saliman Ali Al-hsinny, Majed Al-Hodaeb,†Types of Frames in Reinforced Concrete Structuresâ€

      [12] D.Arola, P.G.Reinhall,M.G.Jenkins,â€An experimental analysis of a hybrid bicycle frame†vol 21–24.

      [13] R. Kalaivani, K. Ramash Kumar, S. Jeevananthan, “Implementation of VSBSMC plus PDIC for Fundamental Positive Output Super Lift-Luo Converter,†Journal of Electrical Engineering, Vol. 16, Edition: 4, 2016, pp. 243-258.

      [14] K. Ramash Kumar,â€Implementation of Sliding Mode Controller plus Proportional Integral Controller for Negative Output Elementary Boost Converter,†Alexandria Engineering Journal (Elsevier), 2016, Vol. 55, No. 2, pp. 1429-1445.

      [15] P. Sivakumar, V. Rajasekaran, K. Ramash Kumar, “Investigation of Intelligent Controllers for Varibale Speeed PFC Buck-Boost Rectifier Fed BLDC Motor Drive,†Journal of Electrical Engineering (Romania), Vol.17, No.4, 2017, pp. 459-471.

      [16] K. Ramash Kumar, D.Kalyankumar, DR.V.Kirbakaran†An Hybrid Multi level Inverter Based DSTATCOM Control, Majlesi Journal of Electrical Engineering, Vol. 5. No. 2, pp. 17-22, June 2011, ISSN: 0000-0388.

      [17] K. Ramash Kumar, S. Jeevananthan, “A Sliding Mode Control for Positive Output Elementary Luo Converter,†Journal of Electrical Engineering, Volume 10/4, December 2010, pp. 115-127.

      [18] K. Ramash Kumar, Dr.S. Jeevananthan,†Design of a Hybrid Posicast Control for a DC-DC Boost Converter Operated in Continuous Conduction Mode†(IEEE-conference PROCEEDINGS OF ICETECT 2011), pp-240-248, 978-1-4244-7925-2/11.

      [19] K. Ramash Kumar, Dr. S. Jeevananthan,†Design of Sliding Mode Control for Negative Output Elementary Super Lift Luo Converter Operated in Continuous Conduction Modeâ€, (IEEE conference Proceeding of ICCCCT-2010), pp. 138-148, 978-1-4244-7768-5/10.

      [20] K. Ramash Kumar, S. Jeevananthan, S. Ramamurthy†Improved Performance of the Positive Output Elementary Split Inductor-Type Boost Converter using Sliding Mode Controller plus Fuzzy Logic Controller, WSEAS TRANSACTIONS on SYSTEMS and CONTROL, Volume 9, 2014, pp. 215-228.

      [21] N. Arunkumar, T.S. Sivakumaran, K. Ramash Kumar, S. Saranya, â€Reduced Order Linear Quadratic Regulator plus Proportional Double Integral Based Controller for a Positive Output Elementary Super Lift Luo-Converter,†JOURNAL OF THEORETICAL AND APPLIED INFORMATION TECHNOLOGY, July 2014. Vol. 65 No.3, pp. 890-901.

      [22] Arunkumar, T.S. Sivakumaran, K. Ramash Kumar, “Improved Performance of Linear Quadratic Regulator plus Fuzzy Logic Controller for Positive Output Super Lift Luo-Converter,†Journal of Electrical Engineering, Vol. 16, Edition:3, 2016, pp. 397-408.

      [23] Kingston Stanley P, Sanjeevi Gandhi A “INDUSTRIAL EFFLUENT WATER PH NEUTRALIZATION CONTROLLER DESIGN USING LABVIEW AND MATLAB†International Journal of Pure and Applied Mathematics Volume 117 No. 10. (2017), 13-17 doi: 10.12732/ijpam.v117i10.4

      [24] T. Padmapriya and V. Saminadan, “Inter-cell Load Balancing technique for multi-class traffic in MIMO-LTE-A Networksâ€, International Journal of Electrical, Electronics and Data Communication (IJEEDC), ISSN: 2320- 2084, vol.3, no.8, pp. 22-26, Aug 2015.

      [25] S.V.Manikanthan and V.Rama“Optimal Performance Of Key Predistribution Protocol In Wireless Sensor Networks†International Innovative Research Journal of Engineering and Technology ,ISSN NO: 2456-1983,Vol-2,Issue –Special –March 2017.

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  • How to Cite

    V. Dhandapani, N., Manimaran, R., C. Uvaraja, V., & Sridhararan, R. (2018). A Complex shaped crucible frame structure modelling and finite element analysis for stress and deformation. International Journal of Engineering & Technology, 7(2.8), 626-628. https://doi.org/10.14419/ijet.v7i2.8.10546