1- A. Shahryari., S. Omanovic., and J. A.Szpunar.,"Electrochemical formation of highly
pitting resistant passive films on a biomedicalgrade 316LVM” Materials Science and
Engineering C, Vol. 28, pp. 94–106, 2008.
2- H. Liang., B. Shi., A. Fairchild., and T.Cale., "Applications of plasma coatings in
artificial joints: an overview", Journal ofVacuum, Vol. 73, pp. 317–326, 2004.
3- C. Garcı´a., S. Cere´., A. Dura´n.,"Bioactive coatings prepared by sol–gel on
stainless steel 316L", Journal of NonCrystallineSolids, Vol. 348, pp. 218–224,
2004.
4- Amit Bandyopadhyay, Felix Espana, VamsiKrishna Balla, Susmita Bose, Yusuke Ohgami,
Neal M. Davie, "Influence of porosity onmechanical properties and in vivo responseof
Ti6Al4V implants", Acta Biomaterialia, Vol.6, pp. 1640–1648, 2010.
5- Y. Oshida., Bioscience., and Bioengineeringof Titanium Materials, 1st edition, Chapter 8, p.
217-245, Elsevier, Oxford, 2007.
6- W, Xue., X, Liu., X, Zheng., Ch. Ding., "Invivo evaluation of plasma-sprayed titanium
coating after alkali modification",Biomaterials, Vol. 26,3029–3037, 2005.
7- A. L. Yerokhin., A. Leyland., C. Tsotsos.,A. D. Wilson., X. Nie., and A. Matthews.,
"Duplex surface treatments combining plasmaelectrolytic nitrocarburising and plasmaimmersion
ion-assisted deposition", Surfaceand Coating Technology, Vol. 142–144, pp.
1129–1136, 2001.
8- A. L. Yerokhin., X. Nie., A. Leyland., A.Matthews., and S. J. Dowey., "Plasma
Electrolysis for surface enginering ", Surfaceand Coating Technology, Vol. 122, pp. 73–93,
1999.
9- P. Gupta., G. Tenhundfeld., E.O. Daigle., D.Ryabkov., "Electrolytic plasma technology:
Science and engineering—An overview",Journal of Surface and Coating Technology,
Vol. 201, pp. 8746–8760, 2007.
10- M.A. Béjar., R. Henriquez., "Surfacehardening of steel by plasma-electrolysis
boronizing", Journal of Material and Design,Vol. 30, pp. 1726–1728, 2009.
11- M. Aliofkhazraei., A. SabourRouhaghdama., A. Heydarzadeh., and H.
Elmkhaha., "Nanostructured layer formed onCP-Ti by plasma electrolysis (effect of voltage
and duty cycle of cathodic/anodic direction)",Materials Chemistry and Physics, Vol. 113, pp.
607–612, 2009.
12- N. Tsuji., S. Tanaka., and T. Takasugi.,"Effects of combined plasma-carburizing and
shot-peening on fatigue and wear properties ofTi–6Al–4V alloy", Surface and CoatingTechnology, Vol. 203, pp. 1400–1405, 2009.
13- M. Aliofkhazraei., C. Morillo., R.Miresmaeili., and A. Sabour Rouhaghdam.,
"Carburizing of low-melting-point metals bypulsed nanocrystalline plasma electrolytic
carburizing", Surface and Coating Technology,Vol. 202, pp. 5493–5496, 2008.
14- X. Nie., C. Tsotsos., A. Wilson., A.L.Yerokhin., A. Leyland., and A. Matthews.,
"Characteristics of a plasma electrolyticnitrocarburising treatment for stainless steels",
Surface and Coating Technology, Vol. 139-142, pp. 135-142, 2001.
15- F. Mahzoon., M. E. Bahrololoom., andS. Javadpour., "Optimization of a novel
bath for plasma electrolyticnitrocarburizing of 316L stainless steel and
study of tribological properties of thetreated steel surfaces", Surface
Engineering, Vol. 25 (8), pp. 628-633,2009.
16- G. Jiang., Quian Peng., Cong Li., YingWang., Jian Gao., Shu Yuan Chen., Jun
Wang., Bao-luo Shen., "Effect of DCplasma nitriding temperature on
microstructure and dry-sliding wearproperties of 316L stainless steel", Surface
and Coating Technology, Vol. 202, pp.2749-2754, 2008.