On the microstructure of a biocomposite fabricated from bioceramics and 3D Ti-mesh by dip coating method

W. Yi, X. Sun, D. Niu, Xiao Hu

    Research output: Chapter in Book/Conference paperConference paper

    Abstract

    Sintering reactions and fine structure of a biocomposite fabricated from hydroxyapatite (HA) powder, glass-ceramic (GC) powder and titanium mesh by dip coating method were investigated. A dense GC coating was initially deposited onto 3D Ti-mesh, which is to seal off the Ti-mesh. Then, a microporous HA-GC coating was deposited on the top of the dense GC coating to promote bone regeneration. Interfacial reactions play the key role for the coatings/substrate adhesion. During the fabrication process, the Ti substrate reacted with O2 and produced the TiO2 (rutile phase). TixSiy was detected in the GC coating/Ti substrate interfacial region. The average bonding strength between dense GC coating and Ti substrate was 27.1 MPa. © (2014) Trans Tech Publications, Switzerland.
    Original languageEnglish
    Title of host publicationApplied Mechanics and Materials
    Place of PublicationSwitzerland
    PublisherTrans Tech Publications
    Pages355-361
    Volume556-562
    ISBN (Print)9783038351153
    DOIs
    Publication statusPublished - 2014
    Event2014 International Conference on Mechatronics Engineering and Computing Technology (ICMECT 2014) - China, Shanghai, China
    Duration: 9 Apr 201410 Apr 2014
    Conference number: 105616

    Conference

    Conference2014 International Conference on Mechatronics Engineering and Computing Technology (ICMECT 2014)
    Abbreviated titleICMECT 2014
    CountryChina
    CityShanghai
    Period9/04/1410/04/14

    Fingerprint

    glass coatings
    ceramic coatings
    coating
    mesh
    microstructure
    regeneration
    Switzerland
    rutile
    bones
    sintering
    adhesion
    titanium
    fine structure
    ceramics
    coatings
    fabrication
    glass

    Cite this

    Yi, W., Sun, X., Niu, D., & Hu, X. (2014). On the microstructure of a biocomposite fabricated from bioceramics and 3D Ti-mesh by dip coating method. In Applied Mechanics and Materials (Vol. 556-562, pp. 355-361). Switzerland: Trans Tech Publications. https://doi.org/10.4028/www.scientific.net/AMM.556-562.355
    Yi, W. ; Sun, X. ; Niu, D. ; Hu, Xiao. / On the microstructure of a biocomposite fabricated from bioceramics and 3D Ti-mesh by dip coating method. Applied Mechanics and Materials. Vol. 556-562 Switzerland : Trans Tech Publications, 2014. pp. 355-361
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    title = "On the microstructure of a biocomposite fabricated from bioceramics and 3D Ti-mesh by dip coating method",
    abstract = "Sintering reactions and fine structure of a biocomposite fabricated from hydroxyapatite (HA) powder, glass-ceramic (GC) powder and titanium mesh by dip coating method were investigated. A dense GC coating was initially deposited onto 3D Ti-mesh, which is to seal off the Ti-mesh. Then, a microporous HA-GC coating was deposited on the top of the dense GC coating to promote bone regeneration. Interfacial reactions play the key role for the coatings/substrate adhesion. During the fabrication process, the Ti substrate reacted with O2 and produced the TiO2 (rutile phase). TixSiy was detected in the GC coating/Ti substrate interfacial region. The average bonding strength between dense GC coating and Ti substrate was 27.1 MPa. {\circledC} (2014) Trans Tech Publications, Switzerland.",
    author = "W. Yi and X. Sun and D. Niu and Xiao Hu",
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    Yi, W, Sun, X, Niu, D & Hu, X 2014, On the microstructure of a biocomposite fabricated from bioceramics and 3D Ti-mesh by dip coating method. in Applied Mechanics and Materials. vol. 556-562, Trans Tech Publications, Switzerland, pp. 355-361, 2014 International Conference on Mechatronics Engineering and Computing Technology (ICMECT 2014), Shanghai, China, 9/04/14. https://doi.org/10.4028/www.scientific.net/AMM.556-562.355

    On the microstructure of a biocomposite fabricated from bioceramics and 3D Ti-mesh by dip coating method. / Yi, W.; Sun, X.; Niu, D.; Hu, Xiao.

    Applied Mechanics and Materials. Vol. 556-562 Switzerland : Trans Tech Publications, 2014. p. 355-361.

    Research output: Chapter in Book/Conference paperConference paper

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    T1 - On the microstructure of a biocomposite fabricated from bioceramics and 3D Ti-mesh by dip coating method

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    AB - Sintering reactions and fine structure of a biocomposite fabricated from hydroxyapatite (HA) powder, glass-ceramic (GC) powder and titanium mesh by dip coating method were investigated. A dense GC coating was initially deposited onto 3D Ti-mesh, which is to seal off the Ti-mesh. Then, a microporous HA-GC coating was deposited on the top of the dense GC coating to promote bone regeneration. Interfacial reactions play the key role for the coatings/substrate adhesion. During the fabrication process, the Ti substrate reacted with O2 and produced the TiO2 (rutile phase). TixSiy was detected in the GC coating/Ti substrate interfacial region. The average bonding strength between dense GC coating and Ti substrate was 27.1 MPa. © (2014) Trans Tech Publications, Switzerland.

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    Yi W, Sun X, Niu D, Hu X. On the microstructure of a biocomposite fabricated from bioceramics and 3D Ti-mesh by dip coating method. In Applied Mechanics and Materials. Vol. 556-562. Switzerland: Trans Tech Publications. 2014. p. 355-361 https://doi.org/10.4028/www.scientific.net/AMM.556-562.355