I. Bednarczyk scite author profile

The paper presents results of FEM modelling as well as properties and microstructure of the ultralow-carbon ferritic steel after the unconventional SPD process—DRECE (dual rolls equal channel extrusion). Based on the conducted numerical simulation information about the deformation behaviour of a steel strip during the DRECE process was obtained. The simulation results were experimentally verified. The influence of DRECE process on hardness distribution, fracture behaviour and microstructure evolution of the investigated steel was analysed. The increase of steel strength properties after subsequent deformation passes was confirmed. The microstructural investigations revealed that the processed strips exhibit the dislocation cell microstructure and subgrains with mostly low-angle grain boundaries. The grains after processing had relatively high dislocation density and intense microband formation was observed. It was also proved that this unconventional SPD method fosters high grain refinement.

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Structure and plasticity in hot deformed FeAl intermetallic phase base alloy

Kuc

Niewielski

Bednarczyk

2009

Materials Characterization

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Sonochemical growth of nanomaterials in carbon nanotube

et al. 2018

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Influence of Cumulative Plastic Deformation on Microstructure of the Fe-Al Intermetallic Phase Base Alloy

Bednarczyk¹,

Kuc²,

Niewielski³

2014

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This article is part of the research on the microstructural phenomena that take place during hot deformation of intermetallic phase-based alloy. The research aims at design an effective thermo -mechanical processing technology for the investigated intermetallic alloy. The iron aluminides FeAl have been among the most widely studied intermetallics because their low cost, low density, good wear resistance, easy of fabrication and resistance to oxidation and corrosion. There advantages create wide prospects for their industrial applications for components of machines working at a high temperature and in corrosive environment. The problem restricting their application is their low plasticity and their brittle cracking susceptibility, hampers their development as construction materials. Consequently, the research of intermetallic-phase-based alloys focuses on improvement their plasticity by hot working proceses. The study addresses the influence of deformation parameters on the structure of an Fe38% at. Al alloy with Zr, B Mo and C microadditions, using multi -axis deformation simulator. The influence of deformation parameters on microstructure and substructure was determined. It was revealed that application of cumulative plastic deformation method causes intensive reduction of grain size in FeAl phase base alloy.Keywords: FeAl alloys, Max Strain simulator, cumulative plastic deformation, microstructure Prezentowana praca stanowi element prowadzonych badań nad możliwością kształtowania stopów na osnowie faz między-metalicznych z układu Fe-Al drogą obróbki cieplno-plastycznej. Związki międzymetaliczne są traktowane jako przyszłościowe materiały do pracy w wysokich temperaturach i agresywnych środowiskach korozyjnych. Zainteresowanie tą grupą materiałową jest spowodowane dobrymi właściwościami użytkowymi: dobrą odpornością na utlenianie i korozję w środowisku wody morskiej, zużycie ścierne. Ponadto niskie koszty materiałowe stwarzają perspektywy do zastosowań jako alternatywę dla stali odpornych na korozję. Ograniczeniem możliwości szerokiego zastosowania intermetalików z układu Fe-Al, jest ich niedostateczna plastyczność, będąca czynnikiem hamującym ich dalszy rozwój jako materiałów konstrukcyjnych. Stąd badania nad możliwością poprawy plastyczności droga obróbki cieplno-plastycznej. W artykule analizowano wpływ parametrów odkształcania na mikrostrukturę stopu Fe-38% at. Al z mikododatkami cyrkonu, molibdenu, boru węgla. Z wykorzystaniem symulatora Max Strain, który umożliwa kumulację dużych odkształceń w materiale. Przeprowadzono badania mikrostuktury i substruktury wykazały istotny wpływ odkształcania tą metodą na rozdrobnienie ziarn w badanym stopie.

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I. Bednarczyk

Fabrication and characterisation of SbI3-opal structures

Dual rolls equal channel extrusion as unconventional SPD process of the ultralow-carbon steel: finite element simulation, experimental investigations and microstructural analysis

Structure and plasticity in hot deformed FeAl intermetallic phase base alloy

Sonochemical growth of nanomaterials in carbon nanotube

Influence of Cumulative Plastic Deformation on Microstructure of the Fe-Al Intermetallic Phase Base Alloy

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