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Materials and Manufacturing Processes Volume 21, 2006 - Issue 8
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ARTICLES

Wear Behavior of Deep-Cryogenic Treated High-Speed Steels at Different Loads

M. Kalin Center for Tribology and Technical Diagnostics, University of Ljubljana, Ljubljana, SloveniaCorrespondencemitjan.kalin@ ctd.uni-lj.si
,
V. Leskovšek Institute of Metals and Technology, Ljubljana, Slovenia
&
J. Vižintin Center for Tribology and Technical Diagnostics, University of Ljubljana, Ljubljana, Slovenia
Pages 741-746 | Received 30 Nov 2005, Accepted 10 Mar 2005, Published online: 15 Mar 2007

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Anil Kumar Singla, Jagtar Singh & Vishal S. Sharma. (2018) Processing of materials at cryogenic temperature and its implications in manufacturing: A review. Materials and Manufacturing Processes 33:15, pages 1603-1640.
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T. Vignesh Kumar, Rama Thirumurugan & B. Viswanath. (2017) Influence of cryogenic treatment on the metallurgy of ferrous alloys: A review. Materials and Manufacturing Processes 32:16, pages 1789-1805.
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Chetan, S. Ghosh & P. V. Rao. (2016) Environment Friendly Machining of Ni–Cr–Co Based Super Alloy using Different Sustainable Techniques. Materials and Manufacturing Processes 31:7, pages 852-859.
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S. Ravi & M. Pradeep Kumar. (2012) Experimental Investigation of Cryogenic Cooling in Milling of AISI D3 Tool Steel. Materials and Manufacturing Processes 27:10, pages 1017-1021.
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R. Sri Siva, M. Arockia Jaswin & D. Mohan Lal. (2012) Enhancing the Wear Resistance of 100Cr6 Bearing Steel Using Cryogenic Treatment. Tribology Transactions 55:3, pages 387-393.
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M. Dhananchezian, M. Pradeep Kumar & T. Sornakumar. (2011) Cryogenic Turning of AISI 304 Stainless Steel with Modified Tungsten Carbide Tool Inserts. Materials and Manufacturing Processes 26:5, pages 781-785.
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NirmalS. Kalsi, Rakesh Sehgal & VishalS. Sharma. (2010) Cryogenic Treatment of Tool Materials: A Review. Materials and Manufacturing Processes 25:10, pages 1077-1100.
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Franjo Cajner, Vojteh Leskovšek, Darko Landek & Hrvoje Cajner. (2009) Effect of Deep-Cryogenic Treatment on High Speed Steel Properties. Materials and Manufacturing Processes 24:7-8, pages 743-746.
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A. Joseph Vimal, A. Bensely, D. Mohan Lal & K. Srinivasan. (2008) Deep Cryogenic Treatment Improves Wear Resistance of En 31 Steel. Materials and Manufacturing Processes 23:4, pages 369-376.
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Articles from other publishers (21)

Xin Zhang, Xiubo Tian, Chunzhi Gong, Xiangli Liu, Jin Li, Jingchen Zhu & Hong Lin. (2022) Effect of plasma nitriding ion current density on tribological properties of composite CrAlN coatings. Ceramics International 48:3, pages 3954-3962.
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F Ridwan & D Noerhamzah. (2021) Cutting Forces and Flank Wears Analysis for End Mill Processes Using HSS Tools Cryogenic Treatment When Cutting PFRP Material. IOP Conference Series: Materials Science and Engineering 1062:1, pages 012044.
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Jingwen Liao, Liejun Li, Jihua Peng & Jixiang Gao. (2020) Effects of deep cryogenic treatment on the microstructure and friction performance of M35 high-speed steel. Journal of Physics: Conference Series 1676:1, pages 012098.
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M. Priyadarshini, A. Behera & C. K. Biswas. (2020) Effect of sub-zero temperatures on wear resistance of AISI P20 tool steel. Journal of the Brazilian Society of Mechanical Sciences and Engineering 42:5.
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Haixia Sun, Fang Yang, Zhimeng Guo, Xinyue Zhang & Qian Qin. (2019) Complex-shaped high speed steel with high mechanical performance fabricated by gelcasting sintering. International Journal of Materials Research 110:11, pages 1074-1082.
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Sanjeev Katoch, Rakesh Sehgal & Vishal Singh. (2018) Wear behavior of differently cryogenically treated AISI H13 steel against cold work steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering 233:2, pages 292-305.
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Tushar Sonar, Sachin Lomte & Chandrashekhar Gogte. (2018) Cryogenic Treatment of Metal – A Review. Materials Today: Proceedings 5:11, pages 25219-25228.
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L.Y. Xu, J. Zhu, H.Y. Jing, L. Zhao, X.Q. Lv & Y.D. Han. (2016) Effects of deep cryogenic treatment on the residual stress and mechanical properties of electron-beam-welded Ti–6Al–4V joints. Materials Science and Engineering: A 673, pages 503-510.
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S.A. Sonawane, V.K. Tripathi & S.D. Ambekar. (2015) Wear Behaviour of Cryogenic Treated M2 Tool Steel under Dry Sliding Condition. Applied Mechanics and Materials 798, pages 395-401.
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Nay Win Khun, Erjia Liu, Adrian Wei Yee Tan, D. Senthilkumar, Bensely Albert & D. Mohan Lal. (2015) Effects of deep cryogenic treatment on mechanical and tribological properties of AISI D3 tool steel. Friction 3:3, pages 234-242.
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R. Mohammadzadeh, A. Akbari & M. Drouet. (2014) Microstructure and wear properties of AISI M2 tool steel on RF plasma nitriding at different N 2 –H 2 gas compositions. Surface and Coatings Technology 258, pages 566-573.
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A. Idayan, A. Gnanavelbabu & K. Rajkumar. (2014) Influence of Deep Cryogenic Treatment on the Mechanical Properties of AISI 440C Bearing Steel. Procedia Engineering 97, pages 1683-1691.
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Shaohong Li, Na Min, Junwan Li & Xiaochun Wu. (2013) Internal friction measurements of phase transformations during the process of deep cryogenic treatment of a tool steel. Cryogenics 57, pages 1-5.
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X.G. Yan & D.Y. Li. (2013) Effects of the sub-zero treatment condition on microstructure, mechanical behavior and wear resistance of W9Mo3Cr4V high speed steel. Wear 302:1-2, pages 854-862.
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Kamran Amini, Amin Akhbarizadeh & Sirus Javadpour. (2013) Investigating the effect of the quench environment on the final microstructure and wear behavior of 1.2080 tool steel after deep cryogenic heat treatment. Materials & Design 45, pages 316-322.
Crossref
Simranpreet Singh Gill & Harpreet Singh. 2013. Polymers at Cryogenic Temperatures. Polymers at Cryogenic Temperatures 245 273 .
Kamran Amini, Amin Akhbarizadeh & Sirus Javadpour. (2012) Investigating the effect of holding duration on the microstructure of 1.2080 tool steel during the deep cryogenic heat treatment. Vacuum 86:10, pages 1534-1540.
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Simranpreet Singh Gill, Jagdev Singh, Rupinder Singh & Harpreet Singh. (2010) Metallurgical principles of cryogenically treated tool steels—a review on the current state of science. The International Journal of Advanced Manufacturing Technology 54:1-4, pages 59-82.
Crossref
Simranpreet Singh Gill, Harpreet Singh, Rupinder Singh & Jagdev Singh. (2009) Cryoprocessing of cutting tool materials—a review. The International Journal of Advanced Manufacturing Technology 48:1-4, pages 175-192.
Crossref
D. Das, A.K. Dutta & K.K. Ray. (2009) Optimization of the duration of cryogenic processing to maximize wear resistance of AISI D2 steel. Cryogenics 49:5, pages 176-184.
Crossref
D. Das, A.K. Dutta & K.K. Ray. (2009) Influence of varied cryotreatment on the wear behavior of AISI D2 steel. Wear 266:1-2, pages 297-309.
Crossref

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