CORROSION BEHAVIOR OF NEW ΒETA TYPE TITANIUM ALLOY, TI-29NB-13TA-4.6ZR (TNTZ) IN FUSAYAMA-MEYER ARTIFICIAL SALIVA SOLUTION

CORROSION BEHAVIOR OF NEW ΒETA TYPE TITANIUM ALLOY, TI-29NB-13TA-4.6ZR (TNTZ) IN FUSAYAMA-MEYER ARTIFICIAL SALIVA SOLUTION

In order to know precisely the corrosion behavior of a new developed β type titanium alloy Ti-29Nb-13Ta-4.6Zr (TNTZ) and ordinary titanium alloy Ti-6Al4V (for comparison) in oral cavity environment, corrosion rate of these alloys in an artificial saliva solution was then investigated. Corrosion meas...

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Main Authors: GUNAWARMAN, DANI D. GIATMANA, ILHAMDI1 , JON AFFI, YULI YETRI, MITSUO NIINOMI, MASAAKI NAKAI
Format: Article
Language:English
Published: Taylor's University 2018-05-01
Series:Journal of Engineering Science and Technology
Subjects:
Artificial saliva
Corrosion rate
Dental material
Fusayama-Meyer
Titanium
Online Access:http://jestec.taylors.edu.my/Vol%2013%20issue%205%20May%202018/13_5_10.pdf
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spelling doaj-e01fb3435ce740828feaf4f9ed164f962020-11-24T21:26:06ZengTaylor's UniversityJournal of Engineering Science and Technology1823-46902018-05-0113512741281CORROSION BEHAVIOR OF NEW ΒETA TYPE TITANIUM ALLOY, TI-29NB-13TA-4.6ZR (TNTZ) IN FUSAYAMA-MEYER ARTIFICIAL SALIVA SOLUTIONGUNAWARMAN0DANI D. GIATMANA1ILHAMDI1 , JON AFFI2YULI YETRI3MITSUO NIINOMI4MASAAKI NAKAI5Mechanical Engineering Department, Andalas University, Padang 25163, IndonesiaMechanical Engineering Department, Andalas University, Padang 25163, IndonesiaMechanical Engineering Department, Andalas University, Padang 25163, IndonesiaMechanical Engineering Department, Andalas University, Padang 25163, IndonesiaPadang State Polytechnic, Kampus Limau Manis, Padang 25163, IndonesiaFormer with Institute for Materials Research, Tohoku University, Sendai 980-8577, JapanIn order to know precisely the corrosion behavior of a new developed β type titanium alloy Ti-29Nb-13Ta-4.6Zr (TNTZ) and ordinary titanium alloy Ti-6Al4V (for comparison) in oral cavity environment, corrosion rate of these alloys in an artificial saliva solution was then investigated. Corrosion measurement was conducted in 600 ml solution of Fusayama-Meyer artificial saliva containing of 0,4 g NaCl, 0.4 g KCl, 0.795 g CaCl2.2H2O, 0.69 g NaH2PO4, and 1 g urea using a potentiostat model (VERSA studio-200) controlled by a personal computer. The solution was maintained at pH 5.2 and 37oC to imitate oral cavity condition. After corrosion test, specimen surfaces were observed by SEM, EDX and XPS. The result show that the averaged corrosion rate of TNTZ and Ti-6Al-4V is 4.5×10-9 mmy-1 and 6.4×10-8 mmy-1 , respectively. This indicates that the corrosion resistance of TNTZ is relatively high, and it is better than that of Ti6Al-4V. This is due to the formation of a multiple layer of Ti, Nb and Zr oxides in the surface of TNTZ. However, formation of micro-pitting corrosion is more intense in TNTZ due mainly to the alloying elements segregation and the presence of high impurities. It is recommended that, therefore, an intense homogenizing process is neccessary to apply in TNTZ for homogenizing the elemental distribution and, subsequently, for minimizing pitting corrosion attack. Having low pitting corrosion attack is an important thing for dental application in order to reduce stress concentration and crack initiation, and then to avoid mechanical failure during application.http://jestec.taylors.edu.my/Vol%2013%20issue%205%20May%202018/13_5_10.pdfArtificial salivaCorrosion rateDental materialFusayama-MeyerTitanium
collection DOAJ
language English
format Article
sources DOAJ
author GUNAWARMAN
DANI D. GIATMANA
ILHAMDI1 , JON AFFI
YULI YETRI
MITSUO NIINOMI
MASAAKI NAKAI
spellingShingle GUNAWARMAN
DANI D. GIATMANA
ILHAMDI1 , JON AFFI
YULI YETRI
MITSUO NIINOMI
MASAAKI NAKAI
CORROSION BEHAVIOR OF NEW ΒETA TYPE TITANIUM ALLOY, TI-29NB-13TA-4.6ZR (TNTZ) IN FUSAYAMA-MEYER ARTIFICIAL SALIVA SOLUTION
Journal of Engineering Science and Technology
Artificial saliva
Corrosion rate
Dental material
Fusayama-Meyer
Titanium
author_facet GUNAWARMAN
DANI D. GIATMANA
ILHAMDI1 , JON AFFI
YULI YETRI
MITSUO NIINOMI
MASAAKI NAKAI
author_sort GUNAWARMAN
title CORROSION BEHAVIOR OF NEW ΒETA TYPE TITANIUM ALLOY, TI-29NB-13TA-4.6ZR (TNTZ) IN FUSAYAMA-MEYER ARTIFICIAL SALIVA SOLUTION
title_short CORROSION BEHAVIOR OF NEW ΒETA TYPE TITANIUM ALLOY, TI-29NB-13TA-4.6ZR (TNTZ) IN FUSAYAMA-MEYER ARTIFICIAL SALIVA SOLUTION
title_full CORROSION BEHAVIOR OF NEW ΒETA TYPE TITANIUM ALLOY, TI-29NB-13TA-4.6ZR (TNTZ) IN FUSAYAMA-MEYER ARTIFICIAL SALIVA SOLUTION
title_fullStr CORROSION BEHAVIOR OF NEW ΒETA TYPE TITANIUM ALLOY, TI-29NB-13TA-4.6ZR (TNTZ) IN FUSAYAMA-MEYER ARTIFICIAL SALIVA SOLUTION
title_full_unstemmed CORROSION BEHAVIOR OF NEW ΒETA TYPE TITANIUM ALLOY, TI-29NB-13TA-4.6ZR (TNTZ) IN FUSAYAMA-MEYER ARTIFICIAL SALIVA SOLUTION
title_sort corrosion behavior of new βeta type titanium alloy, ti-29nb-13ta-4.6zr (tntz) in fusayama-meyer artificial saliva solution
publisher Taylor's University
series Journal of Engineering Science and Technology
issn 1823-4690
publishDate 2018-05-01
description In order to know precisely the corrosion behavior of a new developed β type titanium alloy Ti-29Nb-13Ta-4.6Zr (TNTZ) and ordinary titanium alloy Ti-6Al4V (for comparison) in oral cavity environment, corrosion rate of these alloys in an artificial saliva solution was then investigated. Corrosion measurement was conducted in 600 ml solution of Fusayama-Meyer artificial saliva containing of 0,4 g NaCl, 0.4 g KCl, 0.795 g CaCl2.2H2O, 0.69 g NaH2PO4, and 1 g urea using a potentiostat model (VERSA studio-200) controlled by a personal computer. The solution was maintained at pH 5.2 and 37oC to imitate oral cavity condition. After corrosion test, specimen surfaces were observed by SEM, EDX and XPS. The result show that the averaged corrosion rate of TNTZ and Ti-6Al-4V is 4.5×10-9 mmy-1 and 6.4×10-8 mmy-1 , respectively. This indicates that the corrosion resistance of TNTZ is relatively high, and it is better than that of Ti6Al-4V. This is due to the formation of a multiple layer of Ti, Nb and Zr oxides in the surface of TNTZ. However, formation of micro-pitting corrosion is more intense in TNTZ due mainly to the alloying elements segregation and the presence of high impurities. It is recommended that, therefore, an intense homogenizing process is neccessary to apply in TNTZ for homogenizing the elemental distribution and, subsequently, for minimizing pitting corrosion attack. Having low pitting corrosion attack is an important thing for dental application in order to reduce stress concentration and crack initiation, and then to avoid mechanical failure during application.
topic Artificial saliva
Corrosion rate
Dental material
Fusayama-Meyer
Titanium
url http://jestec.taylors.edu.my/Vol%2013%20issue%205%20May%202018/13_5_10.pdf
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AT danidgiatmana corrosionbehaviorofnewbetatypetitaniumalloyti29nb13ta46zrtntzinfusayamameyerartificialsalivasolution
AT ilhamdi1jonaffi corrosionbehaviorofnewbetatypetitaniumalloyti29nb13ta46zrtntzinfusayamameyerartificialsalivasolution
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