Details

Title

Effect of Annealing on Nature of Corrosion Damages of Medium-nickel Austenitic Cast Iron

Journal title

Archives of Foundry Engineering

Yearbook

2017

Volume

vol. 17

Issue

No 3

Authors

Keywords

Heat treatment ; corrosion resistance ; austenitic cast iron ; Stability of austenite

Divisions of PAS

Nauki Techniczne

Publisher

The Katowice Branch of the Polish Academy of Sciences

Date

2017

Type

Artykuły / Articles

Identifier

DOI: 10.1515/afe-2017-0096 ; eISSN 2299-2944

Source

Archives of Foundry Engineering; 2017; vol. 17; No 3

References

Szpunar (1967), The influence of copper on the structure of the austenitic ductile iron Ni Proceedings of Institute of Precision Mechanics in Polish, null, 1. ; Medyński (null), Effect of nickel equivalent on structure and corrosion resistance of nodular cast iron of Foundry, Archives Engineering, 15, 2015. ; Hryniewicz (2005), for surface engineering Editorial Office of Koszalin University of Technology in Polish, Electrochemistry, 17. ; Lacaze (2001), Discussion of The role of manganese and copper in the eutectoid transformation of spheroidal graphite cast iron Metallurgical, Materials Transactions, 32, 2133. ; Pietrowski (2005), Resist cast iron with reduced nickel content of Foundry in Polish, Archives, 5. ; Rączka (2000), Resistance of austenitic - bainitic nodular cast iron to corrosive action of sulphuric nitric and hydrochloric acids Solidification of Metals and Alloys in Polish, null, 15, 527. ; Baszkiewicz (1997), Basics of corrosion of materials Editorial Office of Warsaw University of Technology ( in Polish, null, 18. ; Ahmadabadi (2001), Control of austenitic transformations in ductile iron aided by calculation of Fe phase boundaries of Phase Equilibria, Journal, 12, 1994. ; Janus (2013), Forming of castings structure of austenitic cast iron Ni Editorial Office of Wrocław University of Technology ( in Polish, null. ; Podrzucki (1991), Cast iron Structure properties application Editorial Office STOP in Polish, null, 1. ; Janus (2014), Thermodynamic stability of austenitic Cu cast iron, Metalurgija, 53, 353. ; Janus (2005), Granat Abrasion resistant austenitic - bainitic cast iron Report of Institute of Machine Engineering and Automation of Wroclaw University of Technology in Polish, null, 11. ; Bala (2002), of materials - theory and practice Editorial Office of Materials and of Czestochowa University of Technology in Polish, Corrosion Process Engineering Applied Physics, 14. ; Seyedi (1994), Reducing the nickel content by using manganese in austenitic ductile iron Jourmnal of Iranian Fundryment, Society, 14, 122. ; Hryniewicz (2010), Theoretical basis and practical aspects of corrosion Editorial Office of Koszalin University of Technology ( in Polish, null, 16. ; Lacaze (1994), Experimental - study of the eutectoid transformation in spheroidal graphite cast - iron of, Scandinavian Journal Metallurgy, 13, 151. ; Chung (null), study on the corrosion and erosion behavior of electroless nickel and duplex coatings on ductile iron Surface, Applied Science, 19, 2015. ; Cheng (2010), behavior of nickel alloyed and austempered ductile iron in sodium chloride, Corrosion Corrosion Science, 20, 3.
×