BIOCOMPATIBLE THIN-LAYER MATERIALS FOR COATING NITI AND NITINB SHAPE-MEMORY ALLOYS

BIOCOMPATIBLE THIN-LAYER MATERIALS FOR COATING NITI AND NITINB SHAPE-MEMORY ALLOYS

The invention relates to biocompatible thin-layer materials as single-layer or multi-layer laminate meant to be used for coating NiTi and NiTiNb-type shape-memory alloys employed in making implants or surgical devices. According to the invention, the materials are made of alternating individual thin...

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Bibliographische Detailangaben
Hauptverfasser: BRAIC MARIANA, BRAIC VIOREL, ZOI A C T LIN NICOLAE, KISS ADRIAN EMIL, B L CEANU MIHAI, VL DESCU ALINA
Format: Patent
Sprache:eng ; rum
Schlagworte:
CHEMICAL SURFACE TREATMENT
CHEMISTRY
COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATIONOR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY IONIMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
COATING MATERIAL WITH METALLIC MATERIAL
COATING METALLIC MATERIAL
DIFFUSION TREATMENT OF METALLIC MATERIAL
INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION INGENERAL
METALLURGY
SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THESURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION
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Beschreibung
Zusammenfassung:The invention relates to biocompatible thin-layer materials as single-layer or multi-layer laminate meant to be used for coating NiTi and NiTiNb-type shape-memory alloys employed in making implants or surgical devices. According to the invention, the materials are made of alternating individual thin-layers of either ZrN and TiN, or ZrN and TiAlN, or ZrON and TiON, or ZrON and TiAlON, where the thickness of the pairs of thin layers ranges between 5...400 nm and the total thickness ranges between 0.6...4 μ m, the thickness ratio of the individual layers (ZrN)/(TiN) and (ZrN)/(TiAlN) ranging between 0.25...4 and (ZrON)/(TiON) and (ZrON)/(TiAlON) between 1...4, respectively, at an Al/Ti ratio in the TiAlN and TiAlON layers in the range of 0.4...1 and an O/N ratio in the ZrON, TiON and TiAlON layers in the range of 1...4, the amount of ions released in Ringer corrosive solution being of less than 50 μ g/cmand in Carter-Brugirard solution of less than 40 μ g/cm, the corrosion rate being lower than 0.5x10mm/year and the cellular viability factor upon cytotoxicity assay being higher than 65%. Invenţia se referă la materiale din straturi subţiri, biocomparabile, sub formă de monostraturi sau multistraturi, folosite pentru acoperirea aliajelor cu memoria formei de tip NiTi şi NiTiNb, din care sunt realizate implanturile sau dispozitive utilizate în chirurgie. Materialele conform invenţiei sunt realizate din straturi subţiri, individuale, alternate, fie de ZrN şi TiN, fie de ZrN şi TiAIN, fie de ZrON şi TiON, fie de ZrON şi TiAlON, cu grosimile perechilor de straturi subţiri cuprinse între 5 şi 400 nm, cu grosimi totale cuprinse între 0,6 şi 4 μ m, raportul grosimilor straturilor individuale (ZrN)/(TiN) şi (ZrN)/(TiAIN) cuprins între 0,25 şi 4, şi, respectiv, (ZrON)/(TiON) şi (ZrON)/(TiAlON) cuprins între 1 şi 4, cu un raport Al/Ti în straturile de TiAIN şi TiAlON cuprins între 0,4 şi 1, şi cu un raport O/N în straturile de ZrON, TiON şi TiAlON cuprins între 1 şi 4, cantitatea de ioni eliberată în soluţie corozivă Ringer fiind mai mică de 50 μ g/cm, iar în soluţie corozivă Carter-Brugirard fiind mai mică de 40 μ g/cm, vitezele de coroziune fiind mai mici de 0,5 x 10mm/an, iar factorul de viabilitate celulară fiind mai mare de 65% la testul de citotoxicitate.