Volume-9 , Issue-2 , Apr 2021, ISSN 2348-3423 (Online) Go Back

• Open Access   Article

  Dynamic Analysis of Leaf Spring with Structural steel, Albamet, and Fiber Glass

  Sreenesh Valiyandi

  Research Paper | Journal-Paper (IJSRPAS)

  Vol.9 , Issue.2 , pp.1-5, Apr-2021

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  Abstract
  Leaf spring is the main part in the suspension system of the vehicle. The ends of the spring may be moved together with a definite path as it swerve to behave as a structural member. The main function of leaf spring is to carry the vertical load but also to distribute the street or floor brought on vibrations. The test was conducted on a leaf spring of three different materials such as structural steel, albamet, and glass fiber.. A finite detail evaluation has been performed to determine safe loads and stresses. The Leaf spring is modeled in CERO PARAMETRIC 2.0 software program and AUTO-CAD 2008 and it was imported in ANSYS. The leaf spring with unique fabric have been analyzed and estimate the Stresses, deformation, strain energy , the cost and weight for the different materials. The outcome of this work is that the weight of the albumet is minimum compared to other materials and the cost is least by using structural steel and the material albamet is the best material for making leaf spring.

  Key-Words / Index Term
  E glass, Albamet, leaf spring, Vonmises stress, atomized pre alloyed powder

  References
  [1] Naresh K S, Design and Static Analysis of Composite Leaf Spring for Heavy Vehicle Suspension System,”The IUP Journal of Mechanical Engineering, Vol. 9, No. 4, pp. 40-55, 2018.
  [2] Hiroyuki Sugiyama Ahmed A. Shabana, Mohamed A. Omar, Wei-Yi Loh, “Development of nonlinear elastic leaf spring model for multibody vehicle systems” Computer Methods in Applied Mechanics and Engineering. Volume. 195, pp. 6925–6941, 2006.
  [3] Rajendran, S. Vijayarangan “Optimal Design of a Composite Leaf Spring Using the Genetic Algorithms,” Computer and Structures,” Volume. 79, ssue. 11, pp. 1121-1129, 2001
  [4] J.J.Fuentes, H.J. Aguilar , J.A. Rodr´?guez, E.J. Herrera, “Premature fracture in automobile leaf springs,” Engineering Failure Analysis, Volume. 16, Issue. 2 P.P.648–655, 2009
  [5] Bhushan B. Deshmukh1 ,Dr. Santosh B. Jaju, “Design and Analysis of Fiber Reinforce Polymer (FRP) Leaf Spring - A Review,” International Journal of .Engineering Technoscience, Vol 2 Issue 4, pp. 289-291, 2011
  [6] B.Ravi Kumar, D. K. Bhattacharya, Swapan K. Das, S. G. Chowdhury. “Premature fatigue failure of a spring due to quench cracks,” Engineering Failure Analysis, Vol 7, Issue 6, pp. 377-384, 2000
  [7] W. Hufenbach, F. Adam, W.J. Fischer, A. Kunadt, D. Weck, “Effect of Integrated Sensor Networks on the Mechanical Behaviour of Textile-Reinforced Thermoplastics,” Procedia Materials Science, Volume 2 pp. 153-159, 2013
  [8] Tanabe.K.,Seino,T, Kajio.Y," Characteristics of Carbon /Glass Fiber Reinforced Plastic Leaf Spring," SAETechnicalPaper,https://doi.org/10.4271/820403,1982

  Citation
  Sreenesh Valiyandi, "Dynamic Analysis of Leaf Spring with Structural steel, Albamet, and Fiber Glass," International Journal of Scientific Research in Physics and Applied Sciences, Vol.9, Issue.2, pp.1-5, 2021

• Open Access   Article

  A Review on Portable Spectrometry

  Jewel Merry Jijo, Jose George, K.J. John, Parvathy R., Safi Sulaiman, Sandra John, Godwin D.

  Review Paper | Journal-Paper (IJSRPAS)

  Vol.9 , Issue.2 , pp.6-10, Apr-2021

  Abstract

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  Abstract
  Spectrometers are one of the most important optical analytical tools used to separate the spectral components of a physical occurrence and they are used in different fields of research as well as for educational purposes. Various spectrometers have been developed after extensive research and improvement however conventional spectrometers are very pricey paving way to the development of portable spectrometers which are affordable for research and educational purposes in individual university labs. This review covers various types of spectroscopy and their corresponding portable spectrometers.

  Key-Words / Index Term
  Spectrometer, Portable Spectrometer, Spectroscopy

  References
  [1] A. Scheeline, ‘‘How to Design a Spectrometer’’, Applied Spectroscopy, Vol.71, pp.2237–2252, 2017.
  [2] Ashutosh Maurya, Munish Kumar Mishra, Lav Kesharwani, “Analysis of Heavy Metal in Soil through Atomic Absorption Spectroscopy for Forensic Consideration”, International Journal for Research in Applied Science & Engineering Technology, Volume 6, Issue VI, pp.1188-1192, 2018.
  [3] C. Solf, J. Mohr, U. Wallrabe. ‘‘Miniaturized LIGA Fourier Transform Spectrometer’’, Sensors, Proceedings of IEEE, 2003.
  [4] Marcello Picollo, Maurizio Aceto and Tatiana Vitorino, “UV-vis spectroscopy”, Physical Sciences Reviews, 2018.
  [5] Geddes, C. D., Lakowicz, J. R. Techert, S, “Current developments of fluorescence spectroscopy”, Springer New York, 2005.
  [6] R.L. McCreery, “Raman Spectroscopy for Chemical Analysis”, New York, NY: John Wiley and Sons, 2000.
  [7] T. Lam, “A new era in a?ordable Raman spectroscopy”, Raman Technology for Today’s Spectroscopists. Vol 3, Pp. 30–37, 2004.
  [8] Z. Li, M.J. Deen. ‘‘Towards a Portable Raman Spectrometer Using a Concave Grating and a Time-Gated CMOS SPAD’’, Opt. Express, 2014.
  [9] Jenkins, R., “X-ray fluorescence spectrometry”, Wiley-Interscience,New York(Second edition), 1999.
  [10] Kelsey E. Young, Cynthia A. Evans, Kip V. Hodges, Jacob E. Bleacher, Trevor G. Graff, “A review of the handheld X-ray fluorescence spectrometer as a tool for field geologic investigations on earth and in planetary surface exploration”, Applied Geochemistry, Vol.72, pp.77-87, 2016.
  [11] G. Bosco. ‘‘Development and Application of Portable, Hand-Held X-ray Fluorescence Spectrometers’’. TRaC, Trends Anal. Chem. Issue.45, pp.121–134, 2013.
  [12] E.W. Stark. ‘‘Near-Infrared Array Spectrometers’’, Handbook of Vibrational Spectroscopy. Chichester, UK: John Wiley and Sons Ltd., pp.1–30, 2002.
  [13] R.A. Crocombe., “Handheld Spectrometers: The State of the Art”, Next-Generation Spectroscopic Technologies VI. Proc. SPIE. 2013. Vol.31, Issue.4, pp.123-141, 2012.
  [14] Xiandeng Hou, Yihua He, Bradley T. Jones, “Recent Advances in Portable X?Ray Fluorescence Spectrometry”, Applied spectroscopy Reviews, 2006.
  [15] Klara Dégardin, Aurélie Guillemain, and Yves Roggo, “Comprehensive Study of a Handheld Raman Spectrometer for the Analysis of Counterfeits of Solid-Dosage Form Medicines”, Journal of Spectroscopy, 2017.
  [16] Cláudia A Teixeira dos Santos, Miguel Lopo, Ricardo N M J Páscoa, João A, “Lopes A Review on the Applications of Portable Near-Infrared Spectrometers in the Agro-Food Industry”, Applied Spectroscopy, Vol.67, Issue.11, 2013.
  [17] C.V. Thompson, M.G. Geodert, ‘‘Field Portable Instrumentation for Gas and Vapor Samples’’, Encyclopedia of Analytical Chemistry: Applications, Theory and Instrumentation, 2006.
  [18] S. Cornaby, K. Kozaczek. ‘‘X-ray Sources for Handheld X-ray Fluorescence Instruments’’, Encyclopedia of Analytical Chemistry: Applications, Theory and Instrumentation, Pp. 1–25, 2016.
  [19] H. Gru ?ger, J. Knobbe, T. Pu ?gner, P. Reinig, et al. ‘‘New Way to Realize Miniaturized Complex Optical Systems in High Volume’’. MOEMS and Miniaturized Systems, Vol. XVII, 2018.
  [20] M.A. Butler, S. Senturia, Y. Geller. ‘‘Tech Note: Diffractive MEMS in Spectroscopy’’, Spectroscopy, Vol.20, pp.4-10, 2005.
  [21] Markey, A. M., C. S. Clark, P. A. Succop, and S. Roda, “Determination of the feasibility of using a portable x-ray fluorescence (XRF) analyzer in the field for measurement of lead content of sieved soil”, Journal of Environmental Health, Vol.70, pp.24-29, 2008.
  [22] C. Bouye´, B. d`Humières, ‘‘Miniature and Micro Spectrometers Market: Who is Going to Catch the Value?’’, Photonic Instrumentation Engineering IV. Proc. SPIE., 2017.
  [23] M. Kraft, A. Kenda, H. Schenk. ‘‘Hand-Held High-Speed Spectrometers Based on Micro-Electro-Mechanical Components’’. Proceedings of the Symposium on Photonics Technologies for the 7th Framework Program, pp.183–186, 2006.

  Citation
  Jewel Merry Jijo, Jose George, K.J. John, Parvathy R., Safi Sulaiman, Sandra John, Godwin D., "A Review on Portable Spectrometry," International Journal of Scientific Research in Physics and Applied Sciences, Vol.9, Issue.2, pp.6-10, 2021