Modelling and Testing of Spur Gear made of Different 3D Printed Materials

Authors

  • Tanmay Kotkar  Mechanical Engineering, Mumbai University/MGM Collage of Engineering & Technology, Navi Mumbai, Maharashtra, India
  • Prashant Masure  Asst. Professor, Mechanical Engineering, Mumbai University/MGM College of Engineering & Technology, Navi Mumbai, Maharashtra, India
  • Pundalik Modake  
  • Chirag Lad  
  • Basanagouda Patil  

Keywords:

3D printing, Spur gear, Solidworks, Fused Deposition Modelling, ANSYS workbench.

Abstract

In this project work, Objective is to use advance manufacturing processes to produces complex Designs using 3d printing methods. Spur gear of Gear box of TATA SUPER ACE is considered in this project work. Theoretical designing of Spur gear is done as per Lewis equation and 3D modelling is done using Solidworks 2015 software. Finite Element analysis software ANSYS 15.0 is used to study the load carrying capacity of Spur Gear. Spur gear is manufactured using 3D printing FDM technique with four different filaments i.e. ABS, Nylon 12, PC and PLA. These types of Gears can be used in any power transmission system and can be manufactured with required load carrying capacity with short time of production and complex designs. Gear can be manufactured using additive manufacturing methods which will reduce the manufacturing time, easy to make customized gears instantly, reduce noise generated during meshing of gear at high speed, low rate of wear and increase in life of gear.

References

  1. P. B. Pawar, Abhay A. Utpat, "Analysis of Composite Material Spur Gear under Static Loading Condition", "ScienceDirect", Pg. 2968-2974, 2015.
  2. Dr. Ir H. G. H. Van Melick, "Tooth-Bending effects in plastic Spur Gears", "Gear technology" September/October 2007.
  3. K. Mao, P. Langlois, Z.Hu, K. Alharbi, X. Xu, M. Li, C.J. Hooke, D. Chetwynd, "The wear and thermal mechanical contact behaviour of machine cut polymer gears", "ScienceDirect", Jan 2015.
  4. S. Senthilvelan, R. Gnanamoorthy, "Effect of rotational speed on The performance of unreinforced & glass fibre reinforced nylon 6 Spur gears", "ScienceDirect", 2007.
  5. K. Mao, W. Li, C.J. Hooke, D Walton, "Polymer gear surface Thermal wear and its performance prediction", "Science Direct", 2010.
  6. Samy Yousuef, T. A. Osman, Abdelrahman H. Abdalla, and Gamal A. Zohdy, "Wear characterization of carbon nanotube reinforced acetal spur, helical, bevel & worm gears using a TS universal test rig" December 2014.
  7. Ashish N. Taywade, Dr. V.G. Arajpure, "Design and
  8. Development of Nylon 66 Plastic Helical Gears in Automobile
  9. Application", IJERT, ISSN: 2278-0181, Vol. 3, Issue 9, and September 2014.
  10. Prof. Ajitabh Pateriya, Dipak Parasarm Kharat, "Design and finite element method analysis of gear mechanism for raw material 
  11. crushing in plastic industry", IJMERT, Vol.1, No.1, July, 2015.
  12. Ashutosh, Deepak Singathia, "Finite element analysis modelling of spur gear", IJEST vol.5 no. 3 March 2013.
  13. R. Yakut, H. Duzcukoglu, M.T. Demirci, "The load capacity of PC/ABS spur gears and investigation of gear damage", 'Archives of Materials Science And Engineering', Volume 40, Issue 1 November 2009.

International Journal of Scientific Research in Science, Engineering and Technology

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Published

2018-04-30

Issue

Volume 4, Issue 4, March-April-2018

Section

Research Articles

License

Copyright (c) IJSRSET

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Tanmay Kotkar, Prashant Masure, Pundalik Modake, Chirag Lad, Basanagouda Patil, " Modelling and Testing of Spur Gear made of Different 3D Printed Materials , International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 4, Issue 4, pp.1389-1394, March-April-2018.