Küresel grafitli dökme demirin bortemperlenmesi
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Abstract
%X oDOÃúPDGD Âo IDUNOà ÃVÃO LúOHPLQ DODúÃPVÃ] NÂUHVHO JUDILWOL GNPH GHPLULQPLNUR/DSÃVÃQD HWNLOHUL LQFHOHQPLúWLU 'DUEH YH NRUR]/RQ QXPXQHOHULQH ERUODPDERUWHPSHUOHPH YH VWHPSHUOHPH ÃVÃO LúOHPOHUL X/JXODQPÃúWÃU ,VÃO LúOHP JUPÂúnumunelere darbe ve H2SO4DVLGLNRUWDPÃQGDNRUR]/RQWHVWL/DSÃOPÃúWÃU,VÃOLúOHPJUPÂú NÂUHVHO JUDILWOL GNPH GHPLU QXPXQHOHULQLQ PLNUR/DSÃVDONDUDNWHUL]DV/RQX RSWLN PLNURVNRS WDUDPDOà HOHNWURQ PLNURVNREX YH ;-ÃúÃQÃdifraksiyon analizi LOH WHVSLW HGLOPLúWLU %RUÂU WDEDNDVÃQÃQ NDOÃQOÃֈ YH VHUWOL÷LVÃUDVÃ/OD RSWLN PLNURVNRS YH 9LFNHUV VHUWOLN FLKD]à LOH LQFHOHQPLúWLU 7DIHOHOHNWURSRODV/RQ/QWHPLLOHNRUR]/RQKÃ]ODUÃEHOLUOHQPLúWLUøQFHOHPH VRQXFX ERUODQPÃú YH ERUWHPSHUOHQPLú NÂUHVHO JUDILWOL GNPH GHPLULQküresel grafitleri içeren Fe2B ve FeB' dan meydana/Â]H/LQGH ERUÂU WDEDNDVÃQÃQgeldi÷L YH WDEDNDQÃQ GLúVHO PRUIRORML/H VDKLS ROGX÷X JUÂOPÂúWÂU %RUÂUWDEDNDVÃQÃQ NDOÃQOÃֈ DUWDQ ERUODPD VÂUHVL/OH DUWPÃú IDNDW ERUODPD LúOHPLQGHQKüresel grafitli dökme demirinVRQUDNL VR÷XWPD KÃ]ÃQGDQ HWNLOHQPHPLúWLUkorozyon direnci aUWDQ ile artPÃúWÃUERUODPD VÂUHVL YH WHPSHUOHPH VÃFDNOÃ÷ÃBortemperleme malzemeye standart küresel grafitli dökme demir veVWHPSHUOHQPLú NÂUHVHO JUDILWOL GNPH GHPLUOHUH JUH GDKD /ÂNVHN /Â]H/ VHUWOL÷Lstandart küresel grafitli dökme demireD/UÃFD JUH GDKD /ÂNVHN GDUEH WRNOX÷X YHkRUR]/RQ Sonuç olarak, bortemperleme küresel grafitliGLUHQFL VD÷ODPDNWDGÃU.GNPHGHPLUGHRSWLPXP]HOOLNOHULVD÷Oayan /HQLELUÃVÃOLúOHPGLUAnahtar Kelimeler: Küresel grafitli dökme demir, borlama, bortemperleme,VWHPSHUOHPHGDUEHWRNOX÷XNRUR]/RQ In this study, effects of three different heat treatments on micro structuralcharacterization of unalloyed ductile iron have been investigated. Boronizing,borotempering and austempering heat treatments were carried out on impact andcorrosion samples. Heat treated samples were subjected to impact and corrosion ofacidic medium (H2SO4) tests. Microstructural characterization of the heat treatedductile iron was carried out by using optical microscopy, scanning electronmicroscopy and X-ray diffraction analysis. The thickness and hardness of boridelayers were measured by optical microscopy and Micro-Vickers hardness tester,respectively. The corrosion rates have been determined by Tafel extrapolationmethod.Examination results show that the boride layer on the boronized and boro-tempered ductile iron contain FeB -Fe2B and globular graphite and the layer has adenticular morphology. The thickness of boride layer increases with boronizingtime but not affected by the cooling rate after boronizing treatment. The corrosionresistance of ductile iron increases with increasing boronizing time and temperingtemperature. Boro-tempering brings the material higher surface hardness than thatof standard ductile iron and austempered ductile iron. In addition, it causes to thehigher impact toughness and corrosion resistance than that of standard ductileiron. Consequently, boro-tempering heat treatment gives the optimum propertiesto ductile iron.Keywords: Ductile iron, boronizing, boro-tempering, austempering, impacttoughness, corrosion.
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