TY  - CONF
AU  - Cvijović-Alagić, Ivana
AU  - Laketić, Slađana
AU  - Momčilović, M.
AU  - Ciganović, Jovan
AU  - Veljović, Đorđe
AU  - Bajat, Jelena
AU  - Kojić, Vesna
AU  - Rakin, Marko
PY  - 2023
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/11343
AB  - Modern hard tissue replacements, used in orthopedic and dental surgery, are most commonly produced using commercially pure titanium (CP-Ti) and the (α+β) Ti-based alloys since their biomechanical compatibility is superior in comparison to other metallic biomaterials. However, these materials are still unable to meet all implantation requirements primarily due to their somewhat limited resistance to degradation in harsh bio-environment and/or presence of cytotoxic elements in their composition that can cause adverse health effects. Therefore, the potential biomedical application of the β-type Ti alloys, which contain non-toxic elements, is considered since these alloys can exhibit lower elastic modulus and improved biocompatibility compared with other Ti-based materials. The β-type Ti-45Nb (wt%) alloy shows significant potential for application as hard tissue implant material. Nevertheless, an additional improvement of its response in the bio-environment is necessary to maximize its medical applicability. Modification of the alloy’s microstructural and surface characteristics through the careful selection of the appropriate processing parameters can ensure the obtainment of favorable alloy biocompatible properties. High-pressure torsion (HPT), as a processing method for the obtainment of ultra-fine grained (UFG) microstructure with higher compatibility with biological systems, and laser surface scanning, as an easy-to-apply surface modification technique for the obtainment of developed bio-active surface, are singled-out as potential methods for the attainment of more durable orthopedic and dental implants. Having all this in mind, the present research aimed to attain improved corrosive and biocompatible response of the Ti-45Nb alloy in simulated physiological conditions through the alloy grain refinement and the formation of protective surface scales by the alloy combined HPT and laser irradiation processing. For that purpose, the alloy microstructural, electrochemical, and in vitro testing were conducted before and after its additional processing. Attained results indicated that the achieved grain size reduction from 2.76 µm to ~200 nm during HPT processing and the appearance of laser-induced morphologically altered and highly oxidized surface led to the significant improvement of the alloy corrosion resistance and the cellsimplant interaction. Moreover, an additional increase of the laser pulse energy from 5 mJ to 15 mJ during the alloy irradiation in air led to an increase in oxygen content at the alloy surface from 13.64% to 23.89% accompanied by an increase of cell viability from excellent 127.18% to superior 134.42%. Furthermore, as a result of the controlled alloy microstructural and surface morphological and chemical modifications, the formation of a thick, compact and protective bi-modal external scale, composed of mixed Ti- and Nboxides, was enabled in the simulated body conditions. Presence of this surface oxide scale, which consists of inner barrier and outer porous layer, enhanced the alloy’s resistance to corrosion deterioration and simultaneously boosted the cell viability and proliferation. Results of the present study showed that the additional HPT and laser surface processing can be successfully utilized to improve the biometallic’s response to a bio-environment
PB  - Slovak Republic : Institute of Inorganic Chemistry, SAS
C3  - EngCer 2023 : The Advanced Research Workshop: Engineering Ceramics
T1  - Laser-modified Ti-45Nb alloy’s response to bio-environment
SP  - 12
UR  - https://hdl.handle.net/21.15107/rcub_vinar_11343
ER  - 

@conference{
author = "Cvijović-Alagić, Ivana and Laketić, Slađana and Momčilović, M. and Ciganović, Jovan and Veljović, Đorđe and Bajat, Jelena and Kojić, Vesna and Rakin, Marko",
year = "2023",
abstract = "Modern hard tissue replacements, used in orthopedic and dental surgery, are most commonly produced using commercially pure titanium (CP-Ti) and the (α+β) Ti-based alloys since their biomechanical compatibility is superior in comparison to other metallic biomaterials. However, these materials are still unable to meet all implantation requirements primarily due to their somewhat limited resistance to degradation in harsh bio-environment and/or presence of cytotoxic elements in their composition that can cause adverse health effects. Therefore, the potential biomedical application of the β-type Ti alloys, which contain non-toxic elements, is considered since these alloys can exhibit lower elastic modulus and improved biocompatibility compared with other Ti-based materials. The β-type Ti-45Nb (wt%) alloy shows significant potential for application as hard tissue implant material. Nevertheless, an additional improvement of its response in the bio-environment is necessary to maximize its medical applicability. Modification of the alloy’s microstructural and surface characteristics through the careful selection of the appropriate processing parameters can ensure the obtainment of favorable alloy biocompatible properties. High-pressure torsion (HPT), as a processing method for the obtainment of ultra-fine grained (UFG) microstructure with higher compatibility with biological systems, and laser surface scanning, as an easy-to-apply surface modification technique for the obtainment of developed bio-active surface, are singled-out as potential methods for the attainment of more durable orthopedic and dental implants. Having all this in mind, the present research aimed to attain improved corrosive and biocompatible response of the Ti-45Nb alloy in simulated physiological conditions through the alloy grain refinement and the formation of protective surface scales by the alloy combined HPT and laser irradiation processing. For that purpose, the alloy microstructural, electrochemical, and in vitro testing were conducted before and after its additional processing. Attained results indicated that the achieved grain size reduction from 2.76 µm to ~200 nm during HPT processing and the appearance of laser-induced morphologically altered and highly oxidized surface led to the significant improvement of the alloy corrosion resistance and the cellsimplant interaction. Moreover, an additional increase of the laser pulse energy from 5 mJ to 15 mJ during the alloy irradiation in air led to an increase in oxygen content at the alloy surface from 13.64% to 23.89% accompanied by an increase of cell viability from excellent 127.18% to superior 134.42%. Furthermore, as a result of the controlled alloy microstructural and surface morphological and chemical modifications, the formation of a thick, compact and protective bi-modal external scale, composed of mixed Ti- and Nboxides, was enabled in the simulated body conditions. Presence of this surface oxide scale, which consists of inner barrier and outer porous layer, enhanced the alloy’s resistance to corrosion deterioration and simultaneously boosted the cell viability and proliferation. Results of the present study showed that the additional HPT and laser surface processing can be successfully utilized to improve the biometallic’s response to a bio-environment",
publisher = "Slovak Republic : Institute of Inorganic Chemistry, SAS",
journal = "EngCer 2023 : The Advanced Research Workshop: Engineering Ceramics",
title = "Laser-modified Ti-45Nb alloy’s response to bio-environment",
pages = "12",
url = "https://hdl.handle.net/21.15107/rcub_vinar_11343"
}

Cvijović-Alagić, I., Laketić, S., Momčilović, M., Ciganović, J., Veljović, Đ., Bajat, J., Kojić, V.,& Rakin, M.. (2023). Laser-modified Ti-45Nb alloy’s response to bio-environment. in EngCer 2023 : The Advanced Research Workshop: Engineering Ceramics
Slovak Republic : Institute of Inorganic Chemistry, SAS., 12.
https://hdl.handle.net/21.15107/rcub_vinar_11343

Cvijović-Alagić I, Laketić S, Momčilović M, Ciganović J, Veljović Đ, Bajat J, Kojić V, Rakin M. Laser-modified Ti-45Nb alloy’s response to bio-environment. in EngCer 2023 : The Advanced Research Workshop: Engineering Ceramics. 2023;:12.
https://hdl.handle.net/21.15107/rcub_vinar_11343 .

Cvijović-Alagić, Ivana, Laketić, Slađana, Momčilović, M., Ciganović, Jovan, Veljović, Đorđe, Bajat, Jelena, Kojić, Vesna, Rakin, Marko, "Laser-modified Ti-45Nb alloy’s response to bio-environment" in EngCer 2023 : The Advanced Research Workshop: Engineering Ceramics (2023):12,
https://hdl.handle.net/21.15107/rcub_vinar_11343 .

TY  - CONF
AU  - Cvijović-Alagić, Ivana
AU  - Laketić, Slađana
AU  - Veljović, Đorđe
AU  - Kojić, Vesna
AU  - Bajat, Jelena
AU  - Rakin, Marko
PY  - 2023
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/11344
C3  - NANOSTRUC 2023 : International Conference on Structural Nano Composites
T1  - Ultrafine-grained microstructure effect on the biomedical Ti-based alloy performance
SP  - 31
UR  - https://hdl.handle.net/21.15107/rcub_vinar_11344
ER  - 

@conference{
author = "Cvijović-Alagić, Ivana and Laketić, Slađana and Veljović, Đorđe and Kojić, Vesna and Bajat, Jelena and Rakin, Marko",
year = "2023",
journal = "NANOSTRUC 2023 : International Conference on Structural Nano Composites",
title = "Ultrafine-grained microstructure effect on the biomedical Ti-based alloy performance",
pages = "31",
url = "https://hdl.handle.net/21.15107/rcub_vinar_11344"
}

Cvijović-Alagić, I., Laketić, S., Veljović, Đ., Kojić, V., Bajat, J.,& Rakin, M.. (2023). Ultrafine-grained microstructure effect on the biomedical Ti-based alloy performance. in NANOSTRUC 2023 : International Conference on Structural Nano Composites, 31.
https://hdl.handle.net/21.15107/rcub_vinar_11344

Cvijović-Alagić I, Laketić S, Veljović Đ, Kojić V, Bajat J, Rakin M. Ultrafine-grained microstructure effect on the biomedical Ti-based alloy performance. in NANOSTRUC 2023 : International Conference on Structural Nano Composites. 2023;:31.
https://hdl.handle.net/21.15107/rcub_vinar_11344 .

Cvijović-Alagić, Ivana, Laketić, Slađana, Veljović, Đorđe, Kojić, Vesna, Bajat, Jelena, Rakin, Marko, "Ultrafine-grained microstructure effect on the biomedical Ti-based alloy performance" in NANOSTRUC 2023 : International Conference on Structural Nano Composites (2023):31,
https://hdl.handle.net/21.15107/rcub_vinar_11344 .

TY  - CONF
AU  - Cvijović-Alagić, Ivana
AU  - Laketić, Slađana
AU  - Zagorac, Dejan
AU  - Bajat, Jelena
AU  - Veljović, Đorđe
AU  - Kojić, Vesna
AU  - Rakin, Marko
PY  - 2021
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/11342
AB  - The high-pressure torsion (HPT) post-processing treatment influence on the grain refinement, corrosion behavior, and biocompatible properties of the Ti-45Nb (mass%) alloy, as a promising new hard-tissue replacement material, was investigated in the present study. The HPT-induced microstructural alterations were experimentally analyzed by electron backscatter diffraction (EBSD), transmission electron microscopy (TEM), x-ray diffraction (XRD), and Vickers microhardness measurements, while additional theoretical investigations on the ab initio level were conducted to fully investigate the HPT influence on the alloy microstructural properties. Results showed that significant microstructural refinement was achieved through the HPT processing while a change in alloy phase composition was not detected. In both, unrefined and refined, microstructures the β-Ti and Ti4Nb phases were identified and confirmed by the ab initio modeling results. The microstructural alterations effect on the alloy corrosion behavior in simulated physiological conditions was examined through the potentiodynamic polarization measurements. In vitro tests were conducted to determine the grain refinement influence on the investigated alloy and live cells interaction. Attained results indicated that the HPT treatment can be successfully applied to improve the Ti-45Nb alloy bio-corrosive performance through an increase of the alloy hardness, corrosion resistance, and live cells viability during the alloy-cells interaction.
AB  - Tokom prezentovanog istraživanja ispitan je uticaj postupka uvijanja pod visokim pritiskom (UVP) na rafinaciju zrna, koroziono ponašanje i biokompatibilna svojstva Ti-45Nb (mas.%) legure, kao potencijalnog materijala za izradu kostnih implanata. Mikrostrukturne promene, uslovljene primenom UVP postupka, analizirane su elektronskom difrakcijom, transmisionom elektronskom mikroskopijom, difrakcijom x-zraka i određivanjem mikrotvrdoće, dok su teorijska istraživanja na ab initio nivou izvršena u cilju potpunog ispitivanja uticaja UVP metode na mikrostrukturna svojstva legure. Primenom UVP postupka postignuto je značajno usitnjavanje mikrostrukture bez promene faznog sastava legure. U nerafinisanoj i rafinisanoj mikrostrukturi identifikovane su β-Ti i Ti4Nb faze, što su potvrdili i rezultati ab initio modelovanja. Uticaj promene mikrostrukturnih svojstava na korozionu postojanost legure u simuliranim fiziološkim uslovima ispitan je potenciodinamičkom metodom. Uticaj rafinacije zrna na potencijalnu interakciju implantne legure sa živim ćelijama ispitan je primenom in vitro metoda. Potvrđeno je da se UVP obrada može uspešno primeniti za poboljšanje bio-korozionog ponašanja Ti-45Nb legure kroz povećanje tvrdoće i korozione otpornosti legure, kao i vijabilnosti ćelija tokom interakcije legure sa živim ćelijama
PB  - Beograd : Serbian Society of Corrosion and Materials Protection UISKOZAM = Udruženje inženjera Srbije za koroziju i zaštitu materijala UISKOZAM
C3  - XXII YuCorr International Conference : Proceedings
T1  - Microstructural refinement influence on the Ti-45Nb alloy properties in physiological conditions
T1  - Uticaj usitnjavanja mikrostrukture na svojstva Ti-45Nb legure u fiziološkim uslovima
SP  - 138
UR  - https://hdl.handle.net/21.15107/rcub_vinar_11342
ER  - 

@conference{
author = "Cvijović-Alagić, Ivana and Laketić, Slađana and Zagorac, Dejan and Bajat, Jelena and Veljović, Đorđe and Kojić, Vesna and Rakin, Marko",
year = "2021",
abstract = "The high-pressure torsion (HPT) post-processing treatment influence on the grain refinement, corrosion behavior, and biocompatible properties of the Ti-45Nb (mass%) alloy, as a promising new hard-tissue replacement material, was investigated in the present study. The HPT-induced microstructural alterations were experimentally analyzed by electron backscatter diffraction (EBSD), transmission electron microscopy (TEM), x-ray diffraction (XRD), and Vickers microhardness measurements, while additional theoretical investigations on the ab initio level were conducted to fully investigate the HPT influence on the alloy microstructural properties. Results showed that significant microstructural refinement was achieved through the HPT processing while a change in alloy phase composition was not detected. In both, unrefined and refined, microstructures the β-Ti and Ti4Nb phases were identified and confirmed by the ab initio modeling results. The microstructural alterations effect on the alloy corrosion behavior in simulated physiological conditions was examined through the potentiodynamic polarization measurements. In vitro tests were conducted to determine the grain refinement influence on the investigated alloy and live cells interaction. Attained results indicated that the HPT treatment can be successfully applied to improve the Ti-45Nb alloy bio-corrosive performance through an increase of the alloy hardness, corrosion resistance, and live cells viability during the alloy-cells interaction., Tokom prezentovanog istraživanja ispitan je uticaj postupka uvijanja pod visokim pritiskom (UVP) na rafinaciju zrna, koroziono ponašanje i biokompatibilna svojstva Ti-45Nb (mas.%) legure, kao potencijalnog materijala za izradu kostnih implanata. Mikrostrukturne promene, uslovljene primenom UVP postupka, analizirane su elektronskom difrakcijom, transmisionom elektronskom mikroskopijom, difrakcijom x-zraka i određivanjem mikrotvrdoće, dok su teorijska istraživanja na ab initio nivou izvršena u cilju potpunog ispitivanja uticaja UVP metode na mikrostrukturna svojstva legure. Primenom UVP postupka postignuto je značajno usitnjavanje mikrostrukture bez promene faznog sastava legure. U nerafinisanoj i rafinisanoj mikrostrukturi identifikovane su β-Ti i Ti4Nb faze, što su potvrdili i rezultati ab initio modelovanja. Uticaj promene mikrostrukturnih svojstava na korozionu postojanost legure u simuliranim fiziološkim uslovima ispitan je potenciodinamičkom metodom. Uticaj rafinacije zrna na potencijalnu interakciju implantne legure sa živim ćelijama ispitan je primenom in vitro metoda. Potvrđeno je da se UVP obrada može uspešno primeniti za poboljšanje bio-korozionog ponašanja Ti-45Nb legure kroz povećanje tvrdoće i korozione otpornosti legure, kao i vijabilnosti ćelija tokom interakcije legure sa živim ćelijama",
publisher = "Beograd : Serbian Society of Corrosion and Materials Protection UISKOZAM = Udruženje inženjera Srbije za koroziju i zaštitu materijala UISKOZAM",
journal = "XXII YuCorr International Conference : Proceedings",
title = "Microstructural refinement influence on the Ti-45Nb alloy properties in physiological conditions, Uticaj usitnjavanja mikrostrukture na svojstva Ti-45Nb legure u fiziološkim uslovima",
pages = "138",
url = "https://hdl.handle.net/21.15107/rcub_vinar_11342"
}

Cvijović-Alagić, I., Laketić, S., Zagorac, D., Bajat, J., Veljović, Đ., Kojić, V.,& Rakin, M.. (2021). Microstructural refinement influence on the Ti-45Nb alloy properties in physiological conditions. in XXII YuCorr International Conference : Proceedings
Beograd : Serbian Society of Corrosion and Materials Protection UISKOZAM = Udruženje inženjera Srbije za koroziju i zaštitu materijala UISKOZAM., 138.
https://hdl.handle.net/21.15107/rcub_vinar_11342

Cvijović-Alagić I, Laketić S, Zagorac D, Bajat J, Veljović Đ, Kojić V, Rakin M. Microstructural refinement influence on the Ti-45Nb alloy properties in physiological conditions. in XXII YuCorr International Conference : Proceedings. 2021;:138.
https://hdl.handle.net/21.15107/rcub_vinar_11342 .

Cvijović-Alagić, Ivana, Laketić, Slađana, Zagorac, Dejan, Bajat, Jelena, Veljović, Đorđe, Kojić, Vesna, Rakin, Marko, "Microstructural refinement influence on the Ti-45Nb alloy properties in physiological conditions" in XXII YuCorr International Conference : Proceedings (2021):138,
https://hdl.handle.net/21.15107/rcub_vinar_11342 .

TY  - CONF
AU  - Bogdanović, G.
AU  - Usaj-Knežević, S.
AU  - Krajnović, Milena M.
AU  - Kojić, Vesna
AU  - Nikin, Z.
AU  - Petrovic, T.
AU  - Krtolica-Žikić, Koviljka
AU  - Popsavin, M.
AU  - Krtolica, A.
PY  - 2012
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/6991
C3  - European Journal of Cancer
T1  - Cellular and Molecular Characteristics of Novel Colon Cancer Cell Line
VL  - 48
SP  - S86
EP  - S86
DO  - 10.1016/S0959-8049(12)71043-2
ER  - 

@conference{
author = "Bogdanović, G. and Usaj-Knežević, S. and Krajnović, Milena M. and Kojić, Vesna and Nikin, Z. and Petrovic, T. and Krtolica-Žikić, Koviljka and Popsavin, M. and Krtolica, A.",
year = "2012",
journal = "European Journal of Cancer",
title = "Cellular and Molecular Characteristics of Novel Colon Cancer Cell Line",
volume = "48",
pages = "S86-S86",
doi = "10.1016/S0959-8049(12)71043-2"
}

Bogdanović, G., Usaj-Knežević, S., Krajnović, M. M., Kojić, V., Nikin, Z., Petrovic, T., Krtolica-Žikić, K., Popsavin, M.,& Krtolica, A.. (2012). Cellular and Molecular Characteristics of Novel Colon Cancer Cell Line. in European Journal of Cancer, 48, S86-S86.
https://doi.org/10.1016/S0959-8049(12)71043-2

Bogdanović G, Usaj-Knežević S, Krajnović MM, Kojić V, Nikin Z, Petrovic T, Krtolica-Žikić K, Popsavin M, Krtolica A. Cellular and Molecular Characteristics of Novel Colon Cancer Cell Line. in European Journal of Cancer. 2012;48:S86-S86.
doi:10.1016/S0959-8049(12)71043-2 .

Bogdanović, G., Usaj-Knežević, S., Krajnović, Milena M., Kojić, Vesna, Nikin, Z., Petrovic, T., Krtolica-Žikić, Koviljka, Popsavin, M., Krtolica, A., "Cellular and Molecular Characteristics of Novel Colon Cancer Cell Line" in European Journal of Cancer, 48 (2012):S86-S86,
https://doi.org/10.1016/S0959-8049(12)71043-2 . .