Wear Conduct Investigation of 410 by Cryogenic Process

International Journal of Mechanical Engineering

© 2017 by SSRG - IJME Journal

Volume 4 Issue 11

Year of Publication : 2017

Authors : Ch. Vijay Krishna, Ram Subbaiah

10.14445/23488360/IJME-V4I11P101

How to Cite?

Ch. Vijay Krishna, Ram Subbaiah, "Wear Conduct Investigation of 410 by Cryogenic Process," SSRG International Journal of Mechanical Engineering, vol. 4,  no. 11, pp. 5-16, 2017. Crossref, https://doi.org/10.14445/23488360/IJME-V4I11P101

Abstract:

Martensitic stainless steels discover wide applications due to their ideal blend of quality, hardness and wear resistance in cryogenic condition. AISI 410 martensitic stainless steel, subjected to cryogenic hardening was considered using pin on disc tests took after by metallurgical examinations using scanning electron microscopy and energy dispersive spectroscopy. The microstructure includes martensite with randomly scattered carbides in the matrix. In this paper, it is used to enhance the wear conduct investigation of martensitic stainless steel 410 by cryogenic hardening process.

Keywords:

AISI 410 martensitic stainless steel, Cryogenic hardening, Microstructure, Pin on disc test, Wear resistance

References:

[1] G. Prieto, J.E. Perez Ipina, W.R. Tuckart (2014) Cryogenic treatments on AISI 420 Stainless steel: Microstructure and Mechanical properties, Materials Science and Engineering A 605, 236-243.
[2] Kamran Amini, Amin Akhbarizadeh, Sirus Javadpour (2012) Investigating the effect of holding time on the microstructure of 1.2080 tool steel during deep cryogenic heat treatment, Vacuum 86, 1534-1540.
[3] Madhi Koneshlou, Kaveh Meshinchi Asl, Farzad Khomizadeh (2011) Effect of cryogenic treatment on microstructure, mechanical and wear behaviours of AISI H13 hot work tool steel, Cryogenics 51, 55-61.
[4] Shahong Li, Lihui Deng, Xiachun Wu, Yong’an Min, Hongbin Wang (2010) Influence of deep cryogenic treatment on microstructure and evaluation by internal friction of a tool steel, Cryogenics 50, 754-758.
[5] Das D, Dutta AK, Ray KK (2009) Influence of varied cryo treatment on the wear behaviour of AISI D2 Steel. Wear, 266(1-2) 297-309.
[6] Akhbarizadeh A Shafyei, Golazar MA (2009) Effects of cryogenic treatment on wear behaviour of D6 tool steel, Mater Des, 30, 3259-3264.
[7] Darwin J Mohan Lal, D Nagarajan (2008) Optimization of cryogenic treatment to maximize the wear resistance of 18% Cr martensitic stainless steel by Taguchi method, J Mater Process Technol, 195, 241-257.
[8] Wilkins C (1999) Cryogenic processing: the big chill, EDM Today, 36-44.
[9] Meng F Tagashira K Shoma H (1994) Wear resistance and microstructure of cryogenic treated Fe-1.4Cr-1C bearing steel, Scripta Metal Mater, 31(7), 865-868.
[10] Barron RF (1982) Cryogenic treatment on metals to improve wear resistance Cryogenics, 22, 409-414.