Buradasınız

Anasayfa » Content

YAPAY DENİZ SUYUNDA FARKLI HIZLARDA Cu-%10 Ni ALAŞIMININ EROZYON-KOROZYON DAVRANIŞI

EROSION-CORROSION BEHAVIOUR OF Cu-10 % Ni ALLOYS AT DIFFERENT ROTATION SPEEDS IN ARTIFICIAL SEA WATER

Journal Name:

  • Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi

Publication Year:

  • 2002

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
In this study, the erosion-corrosion behaviour of Cu-10 % Ni copper-nickel alloy in artificial sea water has been investigated. The erosion-corrosion tests have been conducted using a cylindrical electrot rotating at different speeds. In the experiments, free corrosion potential tests, cycle polarization tests, electrochemical impedance spectrum (EIS) analysis, weight loss tests, and optic microscope observation were performed. The corrosion rate of Cu-10 % Ni copper-nickel alloy in artificial sea water increased with increasing rotation speed and time. It was also determined that the breakdown of the protective film began after 3 hours at the rotation speed of 1600 rpm, and 1 hour at the 2000 rpm, and grew with increasing time.
Bookmark/Search this post with
Abstract (Original Language): 
Bu çalışmada yapay deniz suyunda Cu-10 % Ni bakır-nikel alaşımının erozyon-korozyon davranışı incelenmiştir. Erozyon-korozyon testleri farklı hızlarda dönen silindirik elektrot kullanılarak gerçekleştirilmiştir. Denemelerde serbest korozyon potansiyeli, anodik polarizasyon, elektrokimyasal impedans analizi, ağırlık kaybı testleri ve optik mikroskop incelemesi yapılmıştır. Dönme hızı ve zamanın artması ile yapay deniz suyundaki Cu-10 % Ni alaşımının korozyon hızı artmıştır. Koruyucu yüzey filmindeki hasarın, dönme hızı 1600 d/d olduğunda 3. saatten itibaren, 2000 d/d olduğunda ise 1. saatten itibaren başladığı ve giderek arttığı belirlenmiştir.
FULL TEXT (PDF): 
PDF icon arastirmax-yapay-deniz-suyunda-farkli-hizlarda-cu-10-ni-alasiminin-erozyon-korozyon-davranisi.pdf
  • 2
155
160
  • Turkish

REFERENCES

References: 

Burleigh, T. D., Waldevk, D. H. 1999. Effect of Alloying on the Resistance of Cu-%10Ni Alloys to Seawater impingement, Corrosion, Vol. 55, 8.
Gilbert, P. T. 1982. A Review of Recent Work on Corrosion Behovior of Copper Alloys in Seawater, Materials Performance Vol. 21, 247.
Henrickson, S. and Knuttson, L. 1975. British
Corrosion, J. Vol. 10, 128.
Hack, H. and Pickering, H. 1993. The influence of Corrosion Product Film Formation on The Corrosion of Nickel Alloys in Aqueous NaCl, Elektrochemical Impedance: Analysis and
Interpretion, ASTM STP 1188, J. R.Scully, D. C. Silverman, and M. W. Kendig, Eds., American Society For Testing and Materials, Philadelphia,,
220-236.
Laachach, A., Srhiri, A. and Benbachir, A. 2000. Corrosion Behaviour of Cupro-nickel 70-30 in 3 % NaCl Medium Influence of Addition of Sulphide Ions, Bultein of Electrochemistry, No. 5, Vol. 16, 193.
Kato, C., Castle, J. E., Ateya, B. G. and Pickering,
H. W. 1980. On the Mechanism of Corrosion of Cu-9, 4 Ni-1, 7 Fe Alloy in Saturated Aqueous NaCl Solution, II. Composition of the Protective Surface Layer, Journal of the Electrochemical Society, Vol. 127, 1897.
Nesic, S. and Solvi, G. T. 1995. Enerhoug, Comparision of the Rotating Cylinder and Pipe Flow Tests for Flow-Sensitive Carbon Dioxide Corrosion, J. Corrosion, Vol.51, 773.
Popplewell, J. M., Hart, R. J. and Ford, J. A. 1973.
Effect of Iron on the on Corrosion Characteristics oif 90-10 Cupronickel in Quiiescent 3, 4 Na,Cl Solution, Corrosion Science, Vol.13, 295.
Wood, R. J. K., Hutton, S. P. and Schiffrin, D. J. 1990. Corrosion Science, Vol. 30, 1171.
Zheng, Y. G., Yang, F., Yao Z. and Ke, W. 1990.
Erosion-Corrosion of Cu-Ni Alloy Bfe30-1-1 in
Artifical Sea Water, Z. Metallkd, Vol. 91, 323.

Thank you for copying data from http://www.arastirmax.com