Details

Title

Properties and Structure of X30MnAlSi26-4-3 High Strength Steel Subjected to Dynamic Compression Processes

Journal title

Archives of Metallurgy and Materials

Yearbook

2017

Volume

vol. 62

Numer

No 4

Authors

Divisions of PAS

Nauki Techniczne

Publisher

Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences

Date

2017

Identifier

ISSN 1733-3490

References

Curtze (2009), Deformation behavior of TRIP and DP steels in tension at different temperatures over a wide range of strain rates, Mater Sci Eng, 507. ; Kusakin (2016), High Twinning Induced Plasticity Steels Microstructure and Mechanical Properties, Rev Adv Mater Sci, 326. ; Lins (2007), microstructural investigation of adiabatic shear bands in an interstitial free steel, Mater Sci Eng, 19, 457. ; Park (2010), Stacking fault energy and plastic deformation of fully austenitic high manganese steels Effect of Al addition, Mater Sci Eng, 527. ; Bouaziz (2011), High manganese austenitic twinning induced plasticity steels of the microstructure properties relationships, review Solid St, 15, 1. ; Niewielski (2009), dla przemysłu motoryzacyjnego zbiorowa pod red pt materiały metaliczne teraźniejszość i przyszłość Inżynierii Materiałowej i Metalurgii Politechniki Śląskiej, null. ; Śmiglewicz (2016), Study of Dislocation Substructures in High Steels after Dynamic Deformation Tests, Acta Phys Pol, 130. ; Śmiglewicz (null), The effect of strain rate on the impact strength of the high - steel, Metalurgija, 11, 631. ; Andrews (1971), Interpretation of patterns ed Adam LTD, electron Diffraction, 13. ; Bassim (2014), Modelling of Formation of Adiabatic Bands, Appl Mech Mater, 20, 566. ; Leszczyńska (2005), dużych prędkości odkształcenia na własności mechaniczne i rozdrobnienie struktury w aluminium i miedzi i, null, 17. ; Grassel (1391), High strength TRIP steel development properties application, null, 16, 409. ; Śmiglewicz (null), Struktura i właściwości stali wysokomanganowej kształtowane w wyniku mechanicznego bliźniakowania indu - kowanego odkształceniem plastycznym Thesis Silesian University of Technology, null, 24, 2015. ; Da (2010), hui yue zhe Effects of High Strain Rate on Properties and Microstructure Evolution of TWIP Steel Subjected to Impact Loading, Journal of Iron And Steel Research International, 17. ; Moćko (2013), Results of strain rate and temperature on mechanical properties of selected structural steels, Engineering, 12, 789. ; Moćko (2012), właściwości mechanicznych staliwa i stali pod kątem zastosowania osłonach balistycznych, null, 16, 556. ; Wang (2013), Inspection of adiabatic shear bands in high manganese TRIP steels i, Mater Forum, 21, 753. ; Paul (2002), uwarunkowania procesu rekrystalizacji pierwotnej metalach sieci, null, 18, 1. ; Jabłońska (2011), Heat treatment of high manganese type austenitic steel Technologies and Properties of Modern Utilised Materials Conference Series, Mater Sci Eng, 22, 1. ; Sahu (2010), Stability of austenite and quasi - adiabatic heating during high strain - rate deformation of twinning - induced plasticity steels, Scripta Mater, 23, 1. ; Curtze (2010), Effects of temperature and strain rate on the tensile properties of TWIP steels, Revista, 14, 157. ; Xiong (2011), Dynamic mechanical properties of the Fe steel after different heat treatments, Mater Sci Eng, 15, 530.

DOI

10.1515/amm-2017-0332

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