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Classic contributions: cryogenic treatment Deep cryogenic treatment of a D2 cold work tool steel

International Heat Treatment and Surface Engineering, 2008
AbstractDeep cryogenic treatment at liquid nitrogen temperatures can enhance the wear resistance of tool steels. This article, first published in 1997, reports experimental investigations that have helped to clarify the underlying mechanisms.
D. N. Collins, J. Dormer
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Classic contributions: cryogenic treatment Deep cryogenic treatment of tool steels: a review

International Heat Treatment and Surface Engineering, 2008
Abstract As opposed to conventional sub-zero treatment to transform retained austenite, deep cryogenic treatment at liquid nitrogen temperatures has been claimed to enhance the wear resistance of tool steels by additional hitherto ill defined phenomena.
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Classic contributions: cryogenic treatment Deep cryogenic treatment of high speed steel: microstructure and mechanism

International Heat Treatment and Surface Engineering, 2008
AbstractIn this article, first published in 1998, it is demonstrated that martensite decomposition and precipitation of ultrafine carbides are important factors in improving the mechanical properties of high speed steels by deep cryogenic treatment (DCT) at 2 −196°C.
Dong Yun, Lin Xiaoping, Xiao Hongshen
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A concept for deep cryogenic treatment of tool steels

2015
International Conference on Stone and Concrete Machining (ICSCM), Vol 3 (2015)
Gavriljuk, V. G.   +4 more
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Effect of Deep-Cryogenic Treatment on High Speed Steel Properties

Materials and Manufacturing Processes, 2009
Advantages of deep-cryogenic treatment over standard heat treatment of high speed steels for the purpose of obtaining better exploitation properties are quoted in an increasing number of scientific papers to be found in literature. This paper deals with the most important improvements of high speed steel properties achieved by using deep-cryogenic ...
Cajner, Franjo   +3 more
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The Research on Process of Deep Cryogenic Treatment for YT15 Carbide Insert

2010 International Conference on Machine Vision and Human-machine Interface, 2010
Deep cryogenic treatment (DCT) is a one time permanent process. In DCT, the material is slowly cooled down to the soaking temperature, is held at soaking temperature for a period time, and is heated back to room temperature. DCT process factors have their own effect on the mechanical properties of material.
Hongjuan Yan, Honghai Xu, Xueke Luo
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Experimental Investigation of the Effect of Deep Cryogenic Treatment of 100Cr6 Bearing Steel

Surface Engineering and Applied Electrochemistry, 2022
Cryogenic treatment is the process of cooling a material to extremely low temperatures to generate enhanced mechanical and physical properties. The present investigation examines the effect of deep cryogenic treatment on the enhancement of mechanical properties, such as wear resistance, corrosion resistance, tensile strength and impact strength of the ...
R. Sri Siva, M. Shunmuga Priyan
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Deep cryogenic treatment of HPDC AZ91 magnesium alloys prior to aging and its influence on alloy microstructure and mechanical properties [PDF]

open access: yesJournal of Materials Processing Technology, 2017
Studies of deep cryogenic treatment have mainly focused on ferrous alloys, despite the advantages of this form of treatment when applied to other non-ferrous alloys.
Cárdenas Gonzalo, David   +2 more
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The Expanded Application Research of Deep Cryogenic Treatment

2009 International Conference on Measuring Technology and Mechatronics Automation, 2009
By using the cryogenic treatment (deep cryogenic treatment) to metal materials, the mechanical properties of metal materials could be improved, as well as the wear-resisting property could greatly increase. Along with deeper research of this public method, the method of expanded technology application could be brought up and the efficiency could be ...
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Influence of deep cryogenic treatment on the thermal decomposition of Fe–C martensite

Journal of Materials Science, 2014
The beneficial effects of deep cryogenic treatment (DCT) at temperatures close to −180 °C on certain mechanical properties of steels are well known, although the metallurgical base mechanism of DCT still needs further clarification. In this study, the thermal decomposition of steel martensite (100Cr6) subjected to low-temperature soaking over different
Preciado, M, Pellizzari, Massimo
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