Experimental Investigation Of Segregation Of Carbon Atoms Due To Sub-Zero Cryogenic Treatment In Cold Work Tool Steel By Mechanical Spectroscopy And Atom Probe Tomography

Journal title

Archives of Metallurgy and Materials




No 2 June


Divisions of PAS

Nauki Techniczne


Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Committee of Materials Engineering and Metallurgy of Polish Academy of Sciences


2015[2015.01.01 AD - 2015.12.31 AD]


DOI: 10.1515/amm-2015-0268 ; e-ISSN 2300-1909


Archives of Metallurgy and Materials; 2015; No 2 June


Wang (1994), Mechanism of Snoek - Köster relaxation in body - centered - cubic metals, Phys Rev B, 50, 3525, ; Stratton (2007), Optimising nano - carbide precipitation in tool steels, Mater Sci Eng, 449. ; Martin (2009), Influence of the carbon content on dislocation relaxation in martensitic steels, Mater Sci Eng, 521. ; Hono (2001), Cementite decomposition in heavily drawn pearlite steel wire, Scripta Mater, 977, ; Magalas (2008), Recent advances in determination of the logarithmic decrement and the resonant frequency in low - frequency mechanical spectroscopy, Sol St Phen, 137. ; Etienne (2003), Mechanical spectroscopy and other relaxation spectroscopies, Sol St Phen, 89. ; Das (2012), On the mechanism of wear resistance enhancement of tool steels by deep cryogenic treatment, Phil Mag Lett, 92. ; Bagramov (2001), Internal friction in a martensitic high carbon steel, Phil Mag, 81. ; Magalas (2003), Mechanical spectroscopy Fundamentals, Sol St Phen, 89. ; Danoix (1998), Direct evidence of cementite dissolution in drawn pearlitic steels observed by tomographic atom probe, Mater Sci Eng, 250. ; Magalas (2009), Ghost internal friction peaks ghost asymmetrical peak broadening and narrowing Misunderstandings consequences and solution, Mater Sci Eng, 521. ; Pereloma (2006), Fine - scale microstructural investigations of warm rolled low - carbon steels with and without Cr and additions, Acta Mater, 54. ; Magalas (2006), Advanced techniques for determining high and extreme high damping : OMI A new algorithm to compute the logarithmic decrement Key, Eng Materials, 319. ; Magalas (1981), The Snoek - Köster relaxation in iron de, Phys, 42. ; Marquis (2013), On the current role of atom probe tomography in materials characterization and materials science Current Opinion in Solid State and Materials, Science, 17, 217. ; Tkalcec (2004), Internal friction in martensitic ferritic and bainitic carbon steel cold work effects, Mater Sci Eng, 370. ; Magalas (1996), - Köster relaxation New insights New paradigms, Phys IV, 6, 163. ; Magalas (2003), On the interaction of dislocations with interstitial atoms in BCC metals using mechanical spectroscopy : the Cold Work the Snoek and the Snoek peak Dedicated to the memory of Professor Ting - Sui Kê, Acta Metall Sin, 39. ; Hoyos (2009), Internal friction in martensitic carbon steels, Mater Sci Eng, 521. ; Ngai (1994), Theoretical basis and general applicability of the coupling model to relaxations in coupled systems Alloy, Comp, 211. ; Tyshchenko (2010), Low - temperature martensitic transformation and deep cryogenic treatment of a tool steel, Mater Sci Eng, 527. ; Li (2010), Influence of deep cryogenic treatment on microstructure and evaluation by internal friction of a tool steel, Cryogenics, 50. ; Gavriljuk (2013), Low - temperature martensitic transformation in tool steels in relation to their deep cryogenic treatment, Acta Mater, 61. ; Saitoh (2004), Influence of substitutional atoms on the Snoek peak of carbon in, iron Acta Mater, 52. ; Das (2009), Influence of varied cryotreatment on the wear behavior of AISI steel, Wear, 266. ; Magalas (2006), Determination of the logarithmic decrement in mechanical spectroscopy, Sol St Phen, 115. ; Magalas (1304), Critical experimental data on the Snoek - Köster relaxation and their explanation by the coupling model in Mechanics and Mechanisms of Material Damping ASTM American Society for Testing and Materials, USA, 189. ; Eldies (1983), Strength of initially virgin martensites at after aging and tempering, Metall Trans A, 14, 196. ; Hoyos (2012), Evolution of martensitic microstructure of carbon steel tempered at low temperatures, Proc Mater Sci, 1.