ANALYZING THERMAL ANALYSIS IN QUENCHING BY VARYING THICKNESS TO THE PROFILE

Authors

  • P.V.V.S.S Aravind M.Tech student, Department of M E, Adarsh College of Engineering, Kakinada
  • Dr. T. Dharma Raju Ph.D. Professor, Department of M E, Adarsh College of Engineering, Kakinada

Abstract

This paper deals with a finite element analysis of the steel quenching process, With reference to the transient temperature field and the thermally lured solid–solid phase transmutation. All the process steps, i.e. holding, cooling and heating, have been treated, modeling both the austenite pattern, decomposition and carrying into account nucleation and growth processes. The final hardness dissemination into the quenched sampling has been predicted according to the rule of mixtures taking into account the chemical configuration of the processing material, the final dissemination of each phase and the local cooling rate. Using Material like Stainless steel C60 steel & Magnesium Alloy. By changing geometry size 15, 30 & 60 mm crosssection of model. Transient analysis conducted from temperature from 720 to 20 deg with time step 1s to 100 sec

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Published

2018-11-14

How to Cite

Aravind, P. ., & Raju, D. T. D. . (2018). ANALYZING THERMAL ANALYSIS IN QUENCHING BY VARYING THICKNESS TO THE PROFILE. International Journal of Technical Innovation in Modern Engineering & Science, 4(11), 254–261. Retrieved from https://ijtimes.com/index.php/ijtimes/article/view/261

Issue

Vol. 4 No. 11 (2018): Vol. 4 No. 11: Volume 4 Issue 11 (November-2018)

Section

Articles