ANALYSIS OF SPUR GEAR SCUFFING FOR LATHE MACHINE HEADSTOCK USING PRO-E AND ANSYS SOFTWARE

Abstract

 Scuffing is a prominent surface failure mode of loaded, lubricated contacts of gears and rolling element bearings experiencing excessive relative sliding and high speeds. This temperature-induced failure occurs suddenly when the contact temperatures reach a critical level due to the frictional heat generated at the contact interface. Material properties and geometry of contacting surfaces, operating conditions (normal load, relative sliding and speed), surface texture (roughness amplitude and direction) as well as physical and chemical properties of the lubricant all influence the scuffing behavior of such components. In this study, a physics-based methodology is proposed for predicting thermal conditions of lubricated contacts under combined sliding and rolling, and for relating these thermal conditions to the likelihood of scuffing. The methodology combines (i) a mixed thermal elastohydrodynamic lubrication (EHL) model to predict temperatures of the contacting surfaces and in the lubricant film in between, (ii) a convective heat transfer model to predict the time-varying temperature distributions of the contacting bodies, and (iii) a scuffing criterion to predict the onset of scuffing. The proposed general methodology is applied to a spur gear problem by considering variations of contact parameters along the tooth surfaces and incorporating a gear load distribution to predict contact loads. This spur gear scuffing model are gear of All Gear head stock of lathe machine uses a one-dimensional (line contact) thermal EHL model and a convective heat transfer model of a gear pair in an iterative manner to predict the maximum instantaneous contact temperatures, which are used with the scuffing temperature limits established by the experiments to determine the likelihood of scuffing to occur. At the end, the proposed methodology is compared to the conventional gear scuffing criteria to highlight its capabilities to overcome the major shortcoming these criteria.

Authors and Affiliations

Keywords

Related Articles

 Stability analysis of linear contraints nonholonomic systems based on conserved quantity

  In this paper, we derive the augmented Birkhoff equation of linear contraints nonholonomic systems firstly. Base on a conserved quantity or a combination of some conserved quantities, we study the stability of l...

 Some Fixed Point Theorems for Nonexpansive Mapping in Hilbert Space

 In this paper we prove a fixed point theorem for nonexpansive mapping using a well known result of Ky Fan’s best approximation theorem in Hilbert space setting. AMS Subject Classification: 47H10, 54H25.

 Design of Modified Booth Multiplier using Reversible gate logic for Radix-8

 This paper describes the concept of multiplication by using modified booth algorithm and reversible logic functions for radix-8. By using Modified booth algorithm, less delay is produced compared to normal multip...

http://www.ijesrt.com/issues%20pdf%20file/Archives%202013/may-2013/11.pdf

Wind form many type of turbine are used they have different type of fault occurred on system. Fault occurred on the system LG, LLG, LLLG or other, system start to reduce the capacity & stability. Wind turbine gener...

A CROSS-PLATFORM APLICATION TO ENHANCE NGO AND SOCIETY COLLABORATION

In today’s modern world connectivity is an important aspect in all fields. When it comes to Non-Governmental Organization (NGO), there is lack of connectivity in between them as well as the common man who is willing to...

Download PDF file
  • EP ID EP89174
  • DOI -
  • Views 155
  • Downloads 0

How To Cite

(2015).  ANALYSIS OF SPUR GEAR SCUFFING FOR LATHE MACHINE HEADSTOCK USING PRO-E AND ANSYS SOFTWARE. International Journal of Engineering Sciences & Research Technology, 4(1), 50-53. https://europub.co.uk/articles/-A-89174