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Coloring and corrosion resistance of pure Mg modified by micro-arc oxidation method

Byline: Long-Hao Li (1,2), Tirunelveli Sankaranarayanan Nellaiappan Sankara Narayanan (1), Yu Kyoung Kim (1), Young-Min Kong (2), Gwi-Su Shin (3), Sung-Ki Lyu (4), Il Song Park (5), Min Ho Lee (1) Keywords: Magnesium; Micro-arc oxidation; Corrosion resistance; Potentiodynamic polarization; Coloring... Full description

Journal Title: International Journal of Precision Engineering and Manufacturing 8/2014, Vol.15(8), pp.1625-1630
Main Author: Li, Long-Hao
Other Authors: Narayanan, Tirunelveli Sankaranarayanan Nellai , Kim, Yu Kyoung , Kong, Young-Min , Shin, Gwi-Su , Lyu, Sung-Ki , Park, Il Song , Lee, Min Ho
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: ISSN: 2234-7593 ; E-ISSN: 2005-4602 ; DOI: http://dx.doi.org/10.1007/s12541-014-0512-9
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recordid: crossref10.1007/s12541-014-0512-9
title: Coloring and corrosion resistance of pure Mg modified by micro-arc oxidation method
format: Article
creator:
  • Li, Long-Hao
  • Narayanan, Tirunelveli Sankaranarayanan Nellai
  • Kim, Yu Kyoung
  • Kong, Young-Min
  • Shin, Gwi-Su
  • Lyu, Sung-Ki
  • Park, Il Song
  • Lee, Min Ho
subjects:
  • Biological Products -- Analysis
  • Biological Products -- Methods
  • Alloys -- Analysis
  • Alloys -- Methods
  • Corrosion (Chemistry) -- Analysis
  • Corrosion (Chemistry) -- Methods
ispartof: International Journal of Precision Engineering and Manufacturing, 8/2014, Vol.15(8), pp.1625-1630
description: Byline: Long-Hao Li (1,2), Tirunelveli Sankaranarayanan Nellaiappan Sankara Narayanan (1), Yu Kyoung Kim (1), Young-Min Kong (2), Gwi-Su Shin (3), Sung-Ki Lyu (4), Il Song Park (5), Min Ho Lee (1) Keywords: Magnesium; Micro-arc oxidation; Corrosion resistance; Potentiodynamic polarization; Coloring Abstract: Magnesium and its alloys are potential candidate materials for use as absorbable implants due to their excellent biodegradability and biocompatibility. Reducing their rapid corrosion rate by alloying and surface modification has been the focus of many research programs. To improve the corrosion resistance and to impart coloration, pure Mg is modified by micro-arc oxidation (MAO) using electrolytes containing different concentrations of manganese (Mn). A porous and thick MAO coating layer consisting of MgO, Mg.sub.3(PO.sub.4).sub.2 and [Mg.sub.2]SiO.sub.4 phases is deposited on Mg. The color of the MAO treated Mg is changed from light gray to brown with the addition of 0.015 M Mn to the base electrolyte. The MAO coatings prepared in this study offers an improved corrosion resistance for Mg. Author Affiliation: (1) Department of Dental Biomaterials and Institute of Bio Degradable Material, Institute of Oral Bioscience, BK 21 Plus Project, School of Dentistry, Chonbuk National University, Jeonju, 561-756, South Korea (2) School of Materials Science and Engineering, University of Ulsan, Ulsan, 680-749, South Korea (3) R&D Cluster Business Center Jeonbuk Technopark, Jeonju, 561-844, South Korea (4) School of Mechanical Engineering, ReCAPT, Gyeongsang National University, Jinju, 660-701, South Korea (5) Division of Advanced Materials Engineering, Research Center for Advanced Materials Development and Institute of Biodegradable Materials, Chonbuk National University, Jeonju, 561-756, South Korea Article History: Registration Date: 06/08/2014 Received Date: 28/11/2013 Accepted Date: 09/04/2014 Online Date: 08/08/2014
language: eng
source:
identifier: ISSN: 2234-7593 ; E-ISSN: 2005-4602 ; DOI: http://dx.doi.org/10.1007/s12541-014-0512-9
fulltext: fulltext
issn:
  • 22347593
  • 2234-7593
  • 20054602
  • 2005-4602
url: Link


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descriptionByline: Long-Hao Li (1,2), Tirunelveli Sankaranarayanan Nellaiappan Sankara Narayanan (1), Yu Kyoung Kim (1), Young-Min Kong (2), Gwi-Su Shin (3), Sung-Ki Lyu (4), Il Song Park (5), Min Ho Lee (1) Keywords: Magnesium; Micro-arc oxidation; Corrosion resistance; Potentiodynamic polarization; Coloring Abstract: Magnesium and its alloys are potential candidate materials for use as absorbable implants due to their excellent biodegradability and biocompatibility. Reducing their rapid corrosion rate by alloying and surface modification has been the focus of many research programs. To improve the corrosion resistance and to impart coloration, pure Mg is modified by micro-arc oxidation (MAO) using electrolytes containing different concentrations of manganese (Mn). A porous and thick MAO coating layer consisting of MgO, Mg.sub.3(PO.sub.4).sub.2 and [Mg.sub.2]SiO.sub.4 phases is deposited on Mg. The color of the MAO treated Mg is changed from light gray to brown with the addition of 0.015 M Mn to the base electrolyte. The MAO coatings prepared in this study offers an improved corrosion resistance for Mg. Author Affiliation: (1) Department of Dental Biomaterials and Institute of Bio Degradable Material, Institute of Oral Bioscience, BK 21 Plus Project, School of Dentistry, Chonbuk National University, Jeonju, 561-756, South Korea (2) School of Materials Science and Engineering, University of Ulsan, Ulsan, 680-749, South Korea (3) R&D Cluster Business Center Jeonbuk Technopark, Jeonju, 561-844, South Korea (4) School of Mechanical Engineering, ReCAPT, Gyeongsang National University, Jinju, 660-701, South Korea (5) Division of Advanced Materials Engineering, Research Center for Advanced Materials Development and Institute of Biodegradable Materials, Chonbuk National University, Jeonju, 561-756, South Korea Article History: Registration Date: 06/08/2014 Received Date: 28/11/2013 Accepted Date: 09/04/2014 Online Date: 08/08/2014
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0$$t=2$$K1=1998$$K4=50$$K5=9$$K6=30$$K7=jom$$K15=fhfroes$$K16=fhfroes$$K18=froes
1$$t=2$$K1=2001$$K4=302$$K5=1$$K6=37$$K7=materials science engineering$$K15=bmordike$$K16=mordikeb$$K18=mordike
2$$t=2$$K1=2006$$K4=27$$K5=9$$K6=1728$$K7=biomaterials$$K15=mpstaiger$$K16=mpstaiger$$K18=staiger
3$$t=2$$K1=2011$$K4=176$$K5=20$$K6=1600$$K7=materials science engineering b$$K15=svirtanen$$K16=virtanens$$K18=virtanen
4$$t=2$$K1=2010$$K4=6$$K5=5$$K6=1714$$K7=acta biomaterialia$$K15=nhort$$K16=hortn$$K18=hort
5$$t=2$$K1=2012$$K4=8$$K5=7$$K6=2442$$K7=acta biomaterialia$$K15=hhornberger$$K16=hornbergerh$$K18=hornberger
6$$t=2$$K1=2013$$K4=9$$K5=10$$K6=8548$$K7=acta biomaterialia$$K15=ddziuba$$K16=dziubad$$K18=dziuba
7$$t=2$$K1=2007$$K4=202$$K5=3$$K6=590$$K7=surface coatings technology$$K15=kychiu$$K16=kychiu$$K18=chiu
8$$t=2$$K1=1999$$K4=25$$K6=169$$K7=transactions on engineering sciences$$K15=eacarter$$K16=eacarter$$K18=carter
9$$t=2$$K1=2010$$K4=204$$K5=9$$K6=1469$$K7=surface coatings technology$$K15=aghasemi$$K16=ghasemia$$K18=ghasemi
10$$t=2$$K1=2012$$K4=38$$K5=6$$K6=4607$$K7=ceramics international$$K15=dsreekanth$$K16=sreekanthd$$K18=sreekanth
11$$t=2$$K1=2009$$K4=66$$K5=3$$K6=328$$K7=progress in organic coatings$$K15=szhang$$K16=zhangs$$K18=zhang
12$$t=2$$K1=2013$$K4=102$$K6=321$$K7=colloids surfaces b biointerfaces$$K15=qzhao$$K16=zhaoq$$K18=zhao
13$$t=2$$K1=2009$$K4=54$$K5=27$$K6=7085$$K7=electrochimica acta$$K15=shiromoto$$K16=hiromotos$$K18=hiromoto
14$$t=2$$K1=2012$$K4=73$$K5=2$$K6=129$$K7=progress in organic coatings$$K15=rghu$$K16=rghu
15$$t=2$$K1=2010$$K4=205$$K6=S182$$K7=surface coatings technology$$K15=jyang$$K16=yangj$$K18=yang
16$$t=2$$K1=1999$$K4=122$$K5=2$$K6=73$$K7=surface coatings technology$$K15=ayerokhin$$K16=yerokhina$$K18=yerokhin
17$$t=2$$K1=2014$$K4=60$$K6=1$$K7=progress in materials science$$K15=ntsankara$$K16=ntsankara$$K18=sankara
18$$t=2$$K1=2006$$K4=8$$K5=6$$K6=511$$K7=advanced engineering materials$$K15=cblawert$$K16=blawertc$$K18=blawert
19$$t=2$$K1=2009$$K4=54$$K5=6$$K6=2409$$K7=journal of the korean physical society$$K15=kria$$K16=riak$$K18=ria
20$$t=3$$K1=1985$$K8=aqueous anodizing solution process for coloring article of magnesium or magnesium base alloy$$K9=aqueousanodizingsolualloy$$K12=aqueousanodizingsolutiona$$K15=wkobayashi$$K16=kobayashiw$$K18=kobayashi
21$$t=3$$K1=2005$$K8=method of coloring magnesium material housing made of colored magnesium material$$K9=methodofcoloringmagnerial$$K12=methodofcoloringmagnesium$$K15=ynaganuma$$K16=naganumay$$K18=naganuma
22$$t=2$$K1=2013$$K4=8$$K6=5613$$K7=international journal of electrochemical science$$K15=whou$$K16=houw$$K18=hou
23$$t=2$$K1=2013$$K4=280$$K6=151$$K7=applied surface science$$K15=lwang$$K16=wangl$$K18=wang
24$$t=2$$K1=2010$$K4=157$$K5=7$$K6=C238$$K7=journal of the electrochemical society$$K15=yxin$$K16=xiny$$K18=xin
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date2014-08