Research and Reviews on Experimental and Applied Mechanics

Cryogenic heat treatment is a conventional heat treatment process by deep freezing of material at cryogenic temperature to change physical and mechanical property of material being treated .cryogenic heat treatment improves their properties. Many advanced improvement in material takes place and  the improvement like increase in hardness, increase in tool wear resistance, reduces residual stresses, fatigue resistance, increase dimensional stability, increased thermal conductivity, toughness by transformation of retained austenite to martensite. The phase transformation of the material takes place is mainly responsible for changes in the wear resistance, tensile strength, toughness etc. which increases the tool life. From the review it is understood that Cryogenic heat treatment has great effect on cutting tool properties.

Satish Kumar, N. Mohan, Suresh. R and Nitin K Khedkar Effect Of Cryogenic Treatment On Tool Steels International Journal of Advanced Research • March 2017 . pp. 1035-1045.

Akincioglu, S, Gokkaya H, and Uygur I. A review of cryogenic treatment on cutting tools.International Journal of Advanced Manufacturing Technology. 2015. pp. 1609–1627.

Kamran Amini, Amin Akhbarizadeh, and Sirus Javadpour Effect of deep cryogenic treatment on the formation of nano-sized carbides and the wear behavior of D2 tool steel Volume 19, Number 9, Sep 2012, Page 795.

Sıtkı Akincioğlu, Hasan Gökkaya, İlyas Uygur A review of cryogenic treatment on cutting tools The International Journal of Advanced Manufacturing Technology, June 2015, Volume 78, Issue 9–12, pp 1609–1627.

P. I. Patil, R. G. Tated International Conference in Computational Intelligence (ICCIA) 2012 Proceedings published in International Journal of Computer Applications® (IJCA)

Shangtan Liu, Xiaochun Wu, Lei Shi, Yiwen Wu, Wei Qu Material Science and Engineering School, Shanghai University, Shanghai, China

Dr. R. G. Tated, Dr. S. R. Kajale, Dr. Kumar Iyer, Improvement in tool life of cutting tool by application of deep cryogenic treatment, 7th International tooling conference held at Politecnico di Torino, Itlay on 2-5 May 2006, pp. 135-141

National Institute of Standards and Technology, Boulder, Colorado Published in: The MacMillan Encyclopedia Of Chemistry, New York, 2002

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Timmerhaus, K.D.; Reed, R.P. Cryogenic Engineering; Springer: New York, USA, 2007; 3–27.

Baldissera, P.; Delprete, C. Effects of deep cryogenic treatment on static mechanical properties of 18NiCrMo5 carburized steel. Materials and Design 2009, 30, 1435–1440.

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Yaffee, M.J. Wider use of cryogenic quenching seen. Aviation Week/Space Technology 1967, 86, 81–85.

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White Paper, Sub-zero treatment.Technology, processes and equipment, Date 01/09/2010: Published in Germany by Linde Gas http://heattreatment.linde.com/international/web/lg/ht/lik e35lght.nsf/repositorybyalias/wp_sbzro_12/$file/12.pdf

Das, D.; Dutta, A.K.; Ray, K.K. Influence of varied cryotreatment on the wear behavior of AISI D2 steel. Wear 2009, 266, 297–309.

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Collins, D.N.; Dormer, J. Deep cryogenic treatment of a D2 cold-worked tool steel. Heat Treat. Met. 1997, 24 (3), 71–74.