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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-article-BPW7-0012-0107

Czasopismo

Optica Applicata

Tytuł artykułu

Topography of X39Cr13 steel surface after heat and surface treatment

Autorzy Gwoździk, M.  Nitkiewicz, Z. 
Treść / Zawartość http://opticaapplicata.pwr.edu.pl/archive.php
Warianty tytułu
Języki publikacji EN
Abstrakty
EN The paper presents results of surface condition examinations of martensitic X39Cr13 steel subject to heat and surface treatment (plasma nitriding). The heat treatment consisted of compressed nitrogen quenching from 1050 °C (1323 K) and two-hours tempering at 300 °C (573 K) and 620 °C (893 K) for specimens subject to nitriding. The plasma nitriding was carried out in an ion-nitriding installation with cooled anode, at temperature of 460 °C (733 K), at pressure of 150 Pa and during t = 20 h (72 ks); 25%N2+75%H2 was used as the reactive atmosphere. Specimens surface was examined using a profilographometer designed for surface 2D and 3D examinations using a contact method. Surface topography measurements were carried out on specimens taken from 1 mm thick sheet. 1.5 mm×1.5 mm surface was the measurement area. The sampling interval in X and Y axis was 1 žm, while the measuring speed was 0.5 mm/s. The studies carried out allowed evaluating the conditions of examined steel surface through the comparison of stereometric parameters of the surface.
Słowa kluczowe
EN topography   martensitic steel   heat treatment   plasma nitriding  
Wydawca Oficyna Wydawnicza Politechniki Wrocławskiej
Czasopismo Optica Applicata
Rocznik 2009
Tom Vol. 39, nr 4
Strony 853--857
Opis fizyczny bibliogr. 11 poz.,
Twórcy
autor Gwoździk, M.
autor Nitkiewicz, Z.
  • Institute of Materials Engineering, Częstochowa University of Technology, al. Armii Krajowej, 42-200 Częstochowa, Poland
Bibliografia
[1] GWOŹDZIK M., NITKIEWICZ Z., Influence of tempering temperature on the kind of carbides in X39Cr13 steel, 35th School of Materials Engineering, Crakow–Krynica, 25–28 September 2007, pp. 10–14 (in Polish).
[2] TUCKART W., FORLERER E., IURMAN L., Delayed cracking in plasma nitriding of AISI 420 stainless steel, Surface and Coatings Technology 202(1), 2007, pp. 199–202.
[3] RODRÍGUEZ-BARACALDO R., BENITO J.A., PUCHI-CABRERA E.S., STAIA M.H., High temperature wear resistance of (TiAl)N PVD coating on untreated and gas nitrided AISI H13 steel with different heat treatments, Wear 262(3–4), 2007, pp. 380–389.
[4] FRĄCZEK T., PASZENDA Z., NITKIEWICZ Z., GWOŹDZIK M., BASIAGA M., Areology of unconventional plasma nitriding of austenitic steels (304 and 316L), Engineering of Biomaterials 10(69–72), 2007, pp. 30–32.
[5] GWOŹDZIK M., NITKIEWICZ Z., DYJA D., Wear resistance of martensitic steel after plasma nitriding, Acta Metallurgica Slovaca 13, 5/2007, pp. 439–443.
[6] CYBO J., JURA S., Functional Description of Isometric Structures in Quantitative Metallography, Silesian University of Technology Publishers, Gliwice 1995 (in Polish).
[7] HOSEMANN P., HAWLEY M., MORI G., LI N., MALOY S.A., AFM and MFM characterization of oxide layers grown on stainless steels in lead bismuth eutectic, Journal of Nuclear Materials 376(3), 2008, pp. 289–292.
[8] SÁNCHEZ J., FULLEA J., ANDRADE C., GAITERO J.J., PORRO A., AFM study of the early corrosion of a high strength steel in a diluted sodium chloride solution, Corrosion Science 50(7), 2008, pp. 1820–1824.
[9] PN-EN 10088-1:1998: Stainless steels. Grades.
[10] SINGH G.P., ALPHONSA J., BARHAI P.K., RAYJADA P.A., RAOLE P.M., MUKHERJEE S., Effect of surface roughness on the properties of the layer formed on AISI 304 stainless steel after plasma nitriding, Surface and Coatings Technology 200(20–21), 2006, pp. 5807–5811.
[11] LARISCH B., BRUSKY U., SPIES H.J., Plasma nitriding of stainless steels at low temperatures, Surface and Coatings Technology 116–119, 1999, pp. 205–211.
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