Buscador de publicacions

Publicacions

  • Gil-Mur FX, Canedo R, Padrós A, Bañeres MV and Arano JM.

    Fretting corrosion behaviour of ball-and-socket joint on dental implants with different prosthodontic alloys.

    BIO-MED MATER ENG . 13(1): 27-34. Nº de cites: 12

  • Gil-Mur FX, Manero JM, Rodríguez-Rius D and Planell JA.

    Cyclic deformation fatigue behaviour of Ti6Al4V thermochemically nitrided for articular prostheses.

    Journal Of Applied Biomaterials & Biomechanics . 1(1): 43-47.

  • Aparicio C, Gil-Mur FX, Fonseca C, Barbosa M and Planell JA.

    Corrosion behaviour of commercially pure titanium shot blasted with different materials and sizes of shot particles for dental implant applications.

    Biomaterials . 24(2): 263-273. Nº de cites: 231

    [doi:10.1016/S0142-9612(02)00314-9]

  • Gil-Mur FX, Canedo R, Padrós A and Sada E.

    Enhanced wear resistance of ball-and-socket joints of dental implants by means of titanium gaseous nitriding.

    JOURNAL OF BIOMATERIALS APPLICATIONS . 17(1): 31-43. Nº de cites: 14

    [doi:10.1177/0885328202017001598]

  • Ginebra MP, Albuixech L, Fernández-Barragán E, Aparicio C, Gil-Mur FX, San RJ, Vázquez B and Planell JA.

    Mechanical performance of acrylic bone cements containing different radiopacifying agents.

    Biomaterials . 23(8): 1873-1882. Nº de cites: 122

    [doi:10.1016/S0142-9612(01)00314-3]

  • Gil-Mur FX, Ginebra MP and Planell JA.

    Surface hardening by anodizing and heat treatments of Ti6Al4V alloys for articular prostheses.

    BIO-MED MATER ENG . 12(3): 271-281. Nº de cites: 2

  • Rodríguez-Rius D, Manero JM, Gil-Mur FX and Planell JA.

    Low cycle fatigue behavior of Ti6Al4V thermochemically nitrided for its use in hip prostheses.

    JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE . 12(10-12): 935-937. Nº de cites: 6

    [doi:10.1023/A:1012892511845]

  • Ginebra MP, Aparicio C, Albuixech L, Fernández-Barragán E, Gil-Mur FX, Planell JA, Morejón L, Vázquez B and San Román J.

    Improvement of the mechanical properties of acrylic bone cements by substitution of the radio-opaque agent.

    JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE . 10(12): 733-737. Nº de cites: 24

    [doi:10.1023/A:1008979207968]