Production of composite coating of hard chrome – nano alumina by electroplating from the bath of hexa valence chrome and the study of the hardness and abrasive properties

Document Type : Research Paper

Authors

Abstract

This research paper aimed at study of the effect of two critical parameters on the electroplating of nano composite coatings that are, the weight percent of alumina nanoparticles dispersed on the electroplating bath and the density of electrical current. The amount of distributed nanoparticles influences the resistance to abrasion, coating microstructure and adhesion to substrate The hard chrome coating and nano composite coating of chrome – alumina by using  of direct current and electroplating bath of hexavlence chrome. optical microscope images, SEM/EDS,  XRD, micro vikers hardness test and the abrasion test of pin on the disc. The results of these examinations showed that the maximum amount of nano alumina, distributes into the nano composite coatings  when electroplating conditions set on 25 grams of nano alumina per liter of bath, and the current density was 50 amps on square decimeters .SEM images were resolved the presence of nano-alumina particles that distributed into volume of coated layer XRD reveals that the size of grain in coated layer with nano-alumina was reduced noticeably and with increasing the volume density of nano particle in coated layer the grain size of coating structure reduces. Comparison between hard chrome coating and the nano-composite coating of chrome-alumina showed that the coating containing of nano-alumina particles is 46% harder and enjoys 179 times more abrasion resistance as compared to hard chrome.

Keywords

References

1-C.T.J. Low, R.G.A. Wills, F.C. Walsh, “Electrodeposition of composite coatings containing nanoparticles in a metal deposit”, j,Surface & Coatings Technology 201, pp 371-383, 2006.
2.J.P.Celis,J.R.Roos,andC.Buelens,”AMathematical Model For the Elecrolytic Codeposition of Particles with aMetallicmatrix”,J.Electrochemical Science and Technology,June 1987.
3.SeongMinChoi,HideoAwaji,”Nanocomposites-a new material design concept”Science and Technology of Advenced Materials 6,pp 2-10,2005.
4-Li Chen, Liping Wang, Zhixiang Zeng , Tao Xu,” Influence of pulse frequency on the microstructure and wear resistance of electrodeposited Ni–Al2O3 composite coatings”,J. Surface & Coatings Technology 201 ,pp 599–605, 2006.
5-Raj. Narayan, " Electrodeposited Composite Metal Coatings", Reviews on Coatings and Corrosion, Vol.4, No. 2, pp 113-155, 1981.
6.M.Yousefpour,A.Rahimi,"Characterization and selection of optimal parameters to achieve the best tribological performance of the electrodeposited Cr nanocomposite coating",J,Materials and Design   ,pp382–389,2014.
7-Book,Greenwood, J. David, “Hard chromium plating”, publisher Robert Draper Ltd, 1964.
8-Book,Morisset Oswald, “Chromium Plating”, publisher: Robert Draper Ltd, 1954.
9-E. G. Vinokurov, A. M. Arsenkin, K. V. Grigorovich,V.V. Bondar,"Electrodeposition and Physico-Mechanical Properties of Chromium Coatings Modified with Disperse Particles", Protection of Metals,, Vol. 42, No. 3, pp. 290–294,2006.
10-V.H. NGUYEN, T. HOANG, N. NGUYEN, S. KWO, M. KIM, J. LEE, "Cr/nano(ND)composite plating with cobalt cation additive", Trans. Nonfderrous Met. Soc. Chian, Vol79 , pp. 975-978,2009.
11-ص.کفاش یزدی ، م.بحرالعلوم،بررسی تاثیر دانسیته جریان و غلظت مواد افزودنی بر خواص پوشش نانو ساختار روی تولید شده به روش آبکاری الکتریکی،مجله مواد نوین ،شماره 9،ص ۲۳-۳۳،پاییز ۹۱.
 
journal of New Materials
Volume 8, Issue 30
January 2018
Pages 45-58

Files

History

  • Receive Date: 25 May 2015
  • Revise Date: 01 July 2016
  • Accept Date: 01 March 2018

Share

How to cite

Statistics