News Updates Monday 25th Nov 2024 :
  • Welcome to INPRESSCO, world's leading publishers, We have served more than 10000+ authors
  • Articles are invited in engineering, science, technology, management, industrial engg, biotechnology etc.
  • Paper submission is open. Submit online or at editor.ijcet@inpressco.com
  • Our journals are indexed in NAAS, University of Regensburg Germany, Google Scholar, Cross Ref etc.
  • DOI is given to all articles

Methodology for selection of optimum interference fit for enhancing performance of external gear pumps


Author : Jayakumar S, Vijayagowda R Patil and Madhusudan B.H

Pages : 500-506, DOI: https://doi.org/10.14741/ijcet/v.10.4.1
Download PDF
Abstract

External gear pumps are the heart of mobile hydraulic equipment in the mining sectors where it requires precise control of work attachment functions, lubrication of transmissions and oil supply to steering control units. The external gear pumps encounter many tribological phenomena such as lubrication and wear of gear teeth, an inner profile of casing, wear plates, and press fitting of journal bearings. The major challenge involved during the design phase is the optimum selection of required interference dimensions between the shaft plain bushings and its housings such as bracket and covers. Though the analytical calculations provide some rough initial sizes, it is a time consuming and tedious process when it comes to different material combinations, non-uniform and unsymmetrical sections of brackets and housings. Also, it is difficult to include the effect of thermal variations and different surface finish conditions of mating surfaces in analytical calculations. Optimum interference dimensions are essential to avoid premature failure of the Pumps due to dislodging of the bushings. In the current study, the required initial interference fit dimensions are computed based on an analytical method for different materials combinations. Further, the effect of the surface finish of mating surfaces and thermal expansion of materials are studied using KISSsoft simulation. The validation of the same has been carried out using an experimental set up with different material and assembly conditions as a comparative study to find the optimum dimensions.

Keywords: Gear Pump, Joint Interference fit, Plain Bushing, Dislodging, KISSsoft.

Article published in International Journal of Current Engineering and Technology, Vol.10, No.4 (July/Aug 2020)

Call for Papers
  1. IJCET- Current Issue
  2. Issues are published in Feb, April, June, Aug, Oct and Dec
  3. DOI is given to all articles
  • Inpressco Google Scholar
  • Inpressco Science Central
  • Inpressco Global impact factor
  • Inpressco aap

International Press corporation is licensed under a Creative Commons Attribution-Non Commercial NoDerivs 3.0 Unported License
©2010-2023 INPRESSCO® All Rights Reserved