Titanium oxide layer with micro and nano tubes on titanium substrate

Jae Sun Hwang, Sang Bae Lee, Keun Taek Oh, Kyoung Nam Kim, Kwang Mahn Kim

Research output: Contribution to journalArticle

Abstract

The formation of titanium oxide layer with micro and nanotube arrays on titanium substrate was investigated by grit-blasting and anodic oxidation treatment. Micro rough surface can be formed by grit-blasting and nanotube arrays can be formed by anodic oxidation. The morphology of the hybrid surface(micro and nanotube arrays surface) can be affected by the mechanical conditions (grit size, grit material, blasting pressure, nozzle tip of blasting machine, distance nozzle tip and specimen, blasting time) and electrochemical conditions (applied potential, electrolyte concentration and anodizing time) used. Such micro pore and nanotube arrays of titanium oxide can be useful for well-adhered bioactive surface layer on Ti implant metals for orthopedic and dental implants, as well as for photo catalysts and other sensor applications.

Original languageEnglish
Pages (from-to)379-382
Number of pages4
JournalKey Engineering Materials
Volume309-311 I
Publication statusPublished - 2006 Apr 5

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Titanium oxides
Blasting
Titanium
Nanotubes
Anodic oxidation
Substrates
Nozzles
Dental prostheses
Orthopedics
Electrolytes
titanium dioxide
Catalysts
Sensors

All Science Journal Classification (ASJC) codes

  • Materials Science(all)
  • Mechanics of Materials
  • Mechanical Engineering

Cite this

Hwang, J. S., Lee, S. B., Oh, K. T., Kim, K. N., & Kim, K. M. (2006). Titanium oxide layer with micro and nano tubes on titanium substrate. Key Engineering Materials, 309-311 I, 379-382.
Hwang, Jae Sun ; Lee, Sang Bae ; Oh, Keun Taek ; Kim, Kyoung Nam ; Kim, Kwang Mahn. / Titanium oxide layer with micro and nano tubes on titanium substrate. In: Key Engineering Materials. 2006 ; Vol. 309-311 I. pp. 379-382.
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Hwang, JS, Lee, SB, Oh, KT, Kim, KN & Kim, KM 2006, 'Titanium oxide layer with micro and nano tubes on titanium substrate', Key Engineering Materials, vol. 309-311 I, pp. 379-382.

Titanium oxide layer with micro and nano tubes on titanium substrate. / Hwang, Jae Sun; Lee, Sang Bae; Oh, Keun Taek; Kim, Kyoung Nam; Kim, Kwang Mahn.

In: Key Engineering Materials, Vol. 309-311 I, 05.04.2006, p. 379-382.

Research output: Contribution to journalArticle

TY - JOUR

T1 - Titanium oxide layer with micro and nano tubes on titanium substrate

AU - Hwang, Jae Sun

AU - Lee, Sang Bae

AU - Oh, Keun Taek

AU - Kim, Kyoung Nam

AU - Kim, Kwang Mahn

PY - 2006/4/5

Y1 - 2006/4/5

N2 - The formation of titanium oxide layer with micro and nanotube arrays on titanium substrate was investigated by grit-blasting and anodic oxidation treatment. Micro rough surface can be formed by grit-blasting and nanotube arrays can be formed by anodic oxidation. The morphology of the hybrid surface(micro and nanotube arrays surface) can be affected by the mechanical conditions (grit size, grit material, blasting pressure, nozzle tip of blasting machine, distance nozzle tip and specimen, blasting time) and electrochemical conditions (applied potential, electrolyte concentration and anodizing time) used. Such micro pore and nanotube arrays of titanium oxide can be useful for well-adhered bioactive surface layer on Ti implant metals for orthopedic and dental implants, as well as for photo catalysts and other sensor applications.

AB - The formation of titanium oxide layer with micro and nanotube arrays on titanium substrate was investigated by grit-blasting and anodic oxidation treatment. Micro rough surface can be formed by grit-blasting and nanotube arrays can be formed by anodic oxidation. The morphology of the hybrid surface(micro and nanotube arrays surface) can be affected by the mechanical conditions (grit size, grit material, blasting pressure, nozzle tip of blasting machine, distance nozzle tip and specimen, blasting time) and electrochemical conditions (applied potential, electrolyte concentration and anodizing time) used. Such micro pore and nanotube arrays of titanium oxide can be useful for well-adhered bioactive surface layer on Ti implant metals for orthopedic and dental implants, as well as for photo catalysts and other sensor applications.

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Hwang JS, Lee SB, Oh KT, Kim KN, Kim KM. Titanium oxide layer with micro and nano tubes on titanium substrate. Key Engineering Materials. 2006 Apr 5;309-311 I:379-382.

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