Ultra-fine grained pure Titanium for biomedical applications

Mora-Sanchez, Hugo; Sabirov, I.; Monclús, M.A.; Matykina, E.; Molina-Aldareguia, J.M.

doi:10.1080/10667857.2016.1238131

Cited by 21 publications

(20 citation statements)

References 259 publications

(303 reference statements)

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“…Therefore, one of the most suitable areas for the application of the UFG materials is in the field of medical implants such as hip, knee and dental implants as well as various screws, plates and meshes used in orthopaedic applications. Popular materials usually used in these applications are cobalt-chrome alloys, stainless steel and titanium imaging [255,256]. However, commercially pure (CP) Ti has low mechanical and fatigue strength which is not sufficient for the load bearing implants (orthopedic application) and restricts its application only to dental implants [257].…”

Section: Ufg Cp Ti For Biomedical Applicationmentioning

confidence: 99%

“…Alloying by Al and V allows a significant improvement in the mechanical properties, and currently the Ti-6Al-4V alloy is the most extensively used surgical Ti alloy. However, the alloying elements carry the risk of the alloy being toxic for human body as a result of their excessive liberation and accretion in the tissues [255]. To prevail the problem of destructive ion release, enhancement of the mechanical properties of pure titanium by nano-scale grain refinement is an alternative to alloying notion [257,256,255].…”

Section: Ufg Cp Ti For Biomedical Applicationmentioning

confidence: 99%

See 1 more Smart Citation

An overview on severe plastic deformation: research status, techniques classification, microstructure evolution, and applications

Bagherpour

Pardis

Reihanian

et al. 2018

Int J Adv Manuf Technol

114

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The present overview gives a new approach toward developments and recent achievements in severe plastic deformation. The review focuses on several subjects. First, an outline of SPD research status in the world is presented by literature analysis based on the total number of publications, citations and the contribution of the topranked countries. Second, the mechanisms of grain refinement and grain growth during SPD processing are discussed by means of the latest concepts. Third, all SPD methods invented so far are classified based on a new approach. Up to now, the growing tendency of researchers to introduce new SPD techniques results in a large number of SPD methods which can be considered as new or modified techniques or a combination of previous ones. Such a reference can help to prevent the future duplication to introduce the SPD processes, which are technically similar. At the end, the practical applications of ultrafine/nanostructured materials and industrial commercialization of SPD methods are summarized.

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Section: Ufg Cp Ti For Biomedical Applicationmentioning

confidence: 99%

Section: Ufg Cp Ti For Biomedical Applicationmentioning

confidence: 99%

An overview on severe plastic deformation: research status, techniques classification, microstructure evolution, and applications

Bagherpour

Pardis

Reihanian

et al. 2018

Int J Adv Manuf Technol

114

View full text Add to dashboard Cite

show abstract

“…Kumar et al 1 discussed the use of SPD process in developing nano/ultrafine-grained titanium and magnesium alloys. Similarly, Sabirov et al 2 used SPD process to obtain an UFG microstructure which enhances the mechanical and functional properties of Ti-based alloy. Nune et al 3 described the state-of-art knowledge on the biological activity of the nanostructured materials with focus on the effect of phase reversion-induced nano-grained structure on protein adsorption and cell-material interactions.…”

Section: Devesh Misramentioning

confidence: 99%

Special issue – recent advances in nanostructured implantable biomaterials

Misra¹

2016

Materials Technology

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“…Interestingly, the proliferation of fibroblastic cells and stem cells on the surface of nanostructured Ti processed by SPD has been shown to be promoted by grain refinement (Valiev et al, 2016). Another group of researchers (Mora-Sanchez et al, 2016) confirms that significant grain refinement by SPD processing leads to an improvement in mechanical and functional properties. Therefore, ultrafine-grained (UFG) Ti is a good candidate for a base material of a future successful implant.…”

mentioning

confidence: 93%

Thin Bioactive Zn Substituted Hydroxyapatite Coating Deposited on Ultrafine-Grained Titanium Substrate: Structure Analysis

et al. 2018

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Nanocrystalline Zn-substituted hydroxyapatite coatings were deposited by radiofrequency magnetron sputtering on the surface of ultrafine-grained titanium substrates. Cross-section transmission electron microscopy provided information about the morphology and texture of the thin film while in-column energy dispersive X-ray analysis confirmed the presence of Zn in the coating. The Zn-substituted hydroxyapatite coating was formed by an equiaxed polycrystalline grain structure. Effect of substrate crystallinity on the structure of deposited coating is discussed. An amorphous TiO2 sublayer of 8-nm thickness was detected in the interface between the polycrystalline coating and the Ti substrate. Its appearance in the amorphous state is attributed to prior to deposition etching of the substrate and subsequent condensation of oxygen-containing species sputtered from the target. This layer contributes to the high coating-to-substrate adhesion. The major P-O vibrational modes of high intensity were detected by Raman spectroscopy. The Zn-substituted hydroxyapatite could be a material of choice when antibacterial osteoconductive coating with a possibility of withstanding mechanical stress during implantation and service is needed.

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Ultra-fine grained pure Titanium for biomedical applications

Cited by 21 publications

References 259 publications

An overview on severe plastic deformation: research status, techniques classification, microstructure evolution, and applications

An overview on severe plastic deformation: research status, techniques classification, microstructure evolution, and applications

Special issue – recent advances in nanostructured implantable biomaterials

Thin Bioactive Zn Substituted Hydroxyapatite Coating Deposited on Ultrafine-Grained Titanium Substrate: Structure Analysis

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