Subject Areas : journal of New Materials
1 - Assistant prof. of Materials Engineering, Department of Materials Engineering, Lenjan Branch, Islamic Azad University, Isfahan, Iran.
Keywords:
Abstract :
References:
1. sikdar s., menezes p. v., maccione r., jacob t., menezes p. l., “plasma electrolytic oxidation (peo) process,processing, properties, and applications” nanomaterials, 11(6), 1375, 2021.
2. necula b. s., apachitei i., tichelaar f. d., fratila-apachitei l. e., and duszczyk j., “an electron microscopical study on the growth of tio2–ag antibacterial coatings on ti6al7nb biomedical alloy.” acta biomaterialia, 7(6), pp. 2751-2757, 2011.
3. yu z., du a., wang c., ma r., fan y., zhao x., and cao x., “incorporation mechanism of zno nanoparticles in peo coating on 1060 al alloy.” surface and coatings technology, 412, 127068, 2021.
4. yin y. j., li s. h., shen d. w., zu y. y., and qu c. z., “effects of al2o3 nanoparticles on microstructure and performance of ceramic coatings by micro-arc oxidation in key engineering materials” trans. Tech. publications ltd., vol. 537, pp. 92-96, 2013.
5. sarbishei s., sani m. a. f., and mohammadi m. r., “study plasma electrolytic oxidation process and characterization of coatings formed in an alumina nanoparticle suspension.” vacuum, 108, pp. 12-19, 2014.
6. arrabal r., matykina e., viejo f., skeldon p., thompson g. e. and merino m. c., “ac plasma electrolytic oxidation of magnesium with zirconia nanoparticles.” applied surface science, 254(21), pp. 6937-6942, 2008.
7. matykina e., arrabal r., skeldon p., and thompson g. e., “investigation of the growth processes of coatings formed by ac plasma electrolytic oxidation of aluminium.” electrochimica acta, 54(27), pp. 6767-6778, 2009.
8. zhang r., zhao j., and liang j., “a novel multifunctional ptfe/peo composite coating prepared by one-step method.” surface and coatings technology, 299, pp. 90-95, 2016.
9. momeni f. and mousavi khoee m., “investigation of zinc metallic coating properties formed on low carbon steel in alkaline and sulfate electrolytes by plasma electrolytic saturation.” journal of new materials, 6(23), pp. 1-18, 2016.
10. rapheal g., kumar s., blawert c., and dahotre n. b., “wear behavior of plasma electrolytic oxidation (peo) and hybrid coatings of peo and laser on mri 230d magnesium alloy.” wear, 271(9-10), pp. 1987-1997, 2011.
11. van truong p., van bo n., van minh n., anh n. v., kumar g. s. and shkir m., “investigation of corrosion and wear resistance of peo coated d16t aluminium alloys in the marine tropical climate conditions.” materials chemistry and physics, 290, p. 126587, 2022.
12. larsson a., halvarsson m. and ruppi s., “microstructural changes in cvd κ-al2o3 coated cutting tools during turning operations.” surface and coatings technology, 111(2-3), pp. 191-198, 1999.
13. fernández-lópez p., alves s. a., azpitarte i., san-josé j. t. and bayón r., “corrosion and tribocorrosion protection of novel peo coatings on a secondary cast al-si alloy: influence of polishing and sol-gel sealing.” corrosion science, 207, p. 110548, 2022.
14. zhai w., bai l., zhou r., fan x., kang g., liu y. and zhou k., “recent progress on wear‐resistant materials: designs, properties, and applications.” advanced science, 8(11), p. 2003739, 2021.
15. lin m., nemcova a., voevodin a. a., korenyi-both a., liskiewicz t. w., laugel n., and yerokhin a., “surface characteristics underpinning fretting wear performance of heavily loaded duplex chameleon/peo coatings on al.” tribology international, 154, 106723, 2021.
16. liu y. f., liskiewicz t., yerokhin a., korenyi-both a., zabinski j., lin m., and voevodin a. a., “fretting wear behavior of duplex peo/chameleon coating on al alloy.” surface and coatings technology, 352, pp. 238-246, 2018.
17. mohedano m., lopez e., mingo b., moon s., matykina e. and arrabal r., “energy consumption, wear and corrosion of peo coatings on preanodized al alloy: the influence of current and frequency.” journal of materials research and technology, 21, pp. 2061-2075, 2022.
1. sikdar s., menezes p. v., maccione r., jacob t., menezes p. l., “plasma electrolytic oxidation (peo) process,processing, properties, and applications” nanomaterials, 11(6), 1375, 2021.
2. necula b. s., apachitei i., tichelaar f. d., fratila-apachitei l. e., and duszczyk j., “an electron microscopical study on the growth of tio2–ag antibacterial coatings on ti6al7nb biomedical alloy.” acta biomaterialia, 7(6), pp. 2751-2757, 2011.
3. yu z., du a., wang c., ma r., fan y., zhao x., and cao x., “incorporation mechanism of zno nanoparticles in peo coating on 1060 al alloy.” surface and coatings technology, 412, 127068, 2021.
4. yin y. j., li s. h., shen d. w., zu y. y., and qu c. z., “effects of al2o3 nanoparticles on microstructure and performance of ceramic coatings by micro-arc oxidation in key engineering materials” trans. Tech. publications ltd., vol. 537, pp. 92-96, 2013.
5. sarbishei s., sani m. a. f., and mohammadi m. r., “study plasma electrolytic oxidation process and characterization of coatings formed in an alumina nanoparticle suspension.” vacuum, 108, pp. 12-19, 2014.
6. arrabal r., matykina e., viejo f., skeldon p., thompson g. e. and merino m. c., “ac plasma electrolytic oxidation of magnesium with zirconia nanoparticles.” applied surface science, 254(21), pp. 6937-6942, 2008.
7. matykina e., arrabal r., skeldon p., and thompson g. e., “investigation of the growth processes of coatings formed by ac plasma electrolytic oxidation of aluminium.” electrochimica acta, 54(27), pp. 6767-6778, 2009.
8. zhang r., zhao j., and liang j., “a novel multifunctional ptfe/peo composite coating prepared by one-step method.” surface and coatings technology, 299, pp. 90-95, 2016.
9. momeni f. and mousavi khoee m., “investigation of zinc metallic coating properties formed on low carbon steel in alkaline and sulfate electrolytes by plasma electrolytic saturation.” journal of new materials, 6(23), pp. 1-18, 2016.
10. rapheal g., kumar s., blawert c., and dahotre n. b., “wear behavior of plasma electrolytic oxidation (peo) and hybrid coatings of peo and laser on mri 230d magnesium alloy.” wear, 271(9-10), pp. 1987-1997, 2011.
11. van truong p., van bo n., van minh n., anh n. v., kumar g. s. and shkir m., “investigation of corrosion and wear resistance of peo coated d16t aluminium alloys in the marine tropical climate conditions.” materials chemistry and physics, 290, p. 126587, 2022.
12. larsson a., halvarsson m. and ruppi s., “microstructural changes in cvd κ-al2o3 coated cutting tools during turning operations.” surface and coatings technology, 111(2-3), pp. 191-198, 1999.
13. fernández-lópez p., alves s. a., azpitarte i., san-josé j. t. and bayón r., “corrosion and tribocorrosion protection of novel peo coatings on a secondary cast al-si alloy: influence of polishing and sol-gel sealing.” corrosion science, 207, p. 110548, 2022.
14. zhai w., bai l., zhou r., fan x., kang g., liu y. and zhou k., “recent progress on wear‐resistant materials: designs, properties, and applications.” advanced science, 8(11), p. 2003739, 2021.
15. lin m., nemcova a., voevodin a. a., korenyi-both a., liskiewicz t. w., laugel n., and yerokhin a., “surface characteristics underpinning fretting wear performance of heavily loaded duplex chameleon/peo coatings on al.” tribology international, 154, 106723, 2021.
16. liu y. f., liskiewicz t., yerokhin a., korenyi-both a., zabinski j., lin m., and voevodin a. a., “fretting wear behavior of duplex peo/chameleon coating on al alloy.” surface and coatings technology, 352, pp. 238-246, 2018.
17. mohedano m., lopez e., mingo b., moon s., matykina e. and arrabal r., “energy consumption, wear and corrosion of peo coatings on preanodized al alloy: the influence of current and frequency.” journal of materials research and technology, 21, pp. 2061-2075, 2022.
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