FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3092587611> ?p ?o ?g. }

• W3092587611 endingPage "14074" @default.
• W3092587611 startingPage "14061" @default.
• W3092587611 abstract "Implant-related follow up complications resulting from poor implant integration, delamination, chipping, mechanical instability, inflammation or graft-vs-host reaction may lead to low patient tolerance, prolonged care and sometimes leading to a second surgery. Hence, there is an urgent need for developing biomaterials which will help to overcome the above compatibility problems. Ti based alloys have been widely used for biomedical applications, due to their excellent properties, such as low modulus, high biocompatibility and high corrosion resistance. In order to further improve the physical, mechanical and tribological properties of these alloys, microstructural modification is often required. Hence, this study aims to develop and evaluate the structural and tribological behavior of Hot Isostatic Pressed (HIPed) and sintered Ti-6Al-7Nb samples containing niobium, which is less toxic and less expensive as compared to the usual alloying element, vanadium (Ti-6Al-4 V). The Ti-6Al-7Nb alloys were fabricated by using nanoparticle powders milled for different durations (2, 6, 12 and 18 h) to evaluate the effect of milling time on the morphological and structural properties. Friction and wear tests were carried out on the (HIPed) and finally sintered Ti-6Al-7Nb alloy samples, to evaluate their tribological properties under different applied loads (2, 8 and 16 N), with an alumina α-Al2O3 ball as a counter face using an oscillating tribometer. The physical characterization of the nanopowders formed using different milling times indicated that the particle and crystallite size continually decreased with increasing milling time, while the microstrain increased. It is observed that the friction coefficient and wear rate for the samples prepared by powders milled for 18 h and tested under 2 N were lowest with values of 0.25 and 1.51 × 10−2 μm3∙N-1 μm-1, respectively compared to other milled samples. This improvement in tribological properties is attributed to the grain refinement at high milling times. The antibacterial evaluation of the fabricated alloys showed an improvement in antibacterial performance of the samples milled at 18 h compared to the other milling times." @default.
• W3092587611 created "2020-10-15" @default.
• W3092587611 creator A5000690970 @default.
• W3092587611 creator A5005118406 @default.
• W3092587611 creator A5018825719 @default.
• W3092587611 creator A5021855938 @default.
• W3092587611 creator A5022819281 @default.
• W3092587611 creator A5035791112 @default.
• W3092587611 creator A5036482947 @default.
• W3092587611 creator A5062206110 @default.
• W3092587611 creator A5067789347 @default.
• W3092587611 creator A5076223393 @default.
• W3092587611 date "2020-11-01" @default.
• W3092587611 modified "2023-10-01" @default.
• W3092587611 title "Structural, tribological and antibacterial properties of (α + β) based ti-alloys for biomedical applications" @default.
• W3092587611 cites W1417700441 @default.
• W3092587611 cites W1633119801 @default.
• W3092587611 cites W1963939678 @default.
• W3092587611 cites W1969450182 @default.
• W3092587611 cites W1969490758 @default.
• W3092587611 cites W1973503920 @default.
• W3092587611 cites W1998151994 @default.
• W3092587611 cites W2008274901 @default.
• W3092587611 cites W2011210864 @default.
• W3092587611 cites W2022276653 @default.
• W3092587611 cites W2023778608 @default.
• W3092587611 cites W2024303559 @default.
• W3092587611 cites W2029017118 @default.
• W3092587611 cites W2034112189 @default.
• W3092587611 cites W2076057159 @default.
• W3092587611 cites W2076982058 @default.
• W3092587611 cites W2101330312 @default.
• W3092587611 cites W2124931069 @default.
• W3092587611 cites W2164595709 @default.
• W3092587611 cites W2533760600 @default.
• W3092587611 cites W2585271141 @default.
• W3092587611 cites W2586560491 @default.
• W3092587611 cites W2756926878 @default.
• W3092587611 cites W2757304960 @default.
• W3092587611 cites W2809101453 @default.
• W3092587611 cites W2896417747 @default.
• W3092587611 cites W2898513708 @default.
• W3092587611 cites W2911574558 @default.
• W3092587611 cites W2916046182 @default.
• W3092587611 cites W2923108446 @default.
• W3092587611 cites W2925182457 @default.
• W3092587611 cites W2945158775 @default.
• W3092587611 cites W2946291652 @default.
• W3092587611 cites W2966272331 @default.
• W3092587611 cites W2976974316 @default.
• W3092587611 cites W2978007535 @default.
• W3092587611 cites W2987776612 @default.
• W3092587611 cites W2994322336 @default.
• W3092587611 cites W2998958348 @default.
• W3092587611 cites W3000674238 @default.
• W3092587611 cites W3002263293 @default.
• W3092587611 cites W3004677474 @default.
• W3092587611 cites W3004977667 @default.
• W3092587611 cites W3005463488 @default.
• W3092587611 cites W3005870965 @default.
• W3092587611 cites W3007262983 @default.
• W3092587611 cites W3008760507 @default.
• W3092587611 cites W3009387489 @default.
• W3092587611 cites W3011336396 @default.
• W3092587611 cites W3011986165 @default.
• W3092587611 cites W3013844356 @default.
• W3092587611 cites W3014417978 @default.
• W3092587611 cites W3019735883 @default.
• W3092587611 cites W3021108733 @default.
• W3092587611 cites W3022287936 @default.
• W3092587611 cites W3027283677 @default.
• W3092587611 cites W379001449 @default.
• W3092587611 cites W4239617449 @default.
• W3092587611 doi "https://doi.org/10.1016/j.jmrt.2020.09.118" @default.
• W3092587611 hasPublicationYear "2020" @default.
• W3092587611 type Work @default.
• W3092587611 sameAs 3092587611 @default.
• W3092587611 citedByCount "13" @default.
• W3092587611 countsByYear W30925876112021 @default.
• W3092587611 countsByYear W30925876112022 @default.
• W3092587611 countsByYear W30925876112023 @default.
• W3092587611 crossrefType "journal-article" @default.
• W3092587611 hasAuthorship W3092587611A5000690970 @default.
• W3092587611 hasAuthorship W3092587611A5005118406 @default.
• W3092587611 hasAuthorship W3092587611A5018825719 @default.
• W3092587611 hasAuthorship W3092587611A5021855938 @default.
• W3092587611 hasAuthorship W3092587611A5022819281 @default.
• W3092587611 hasAuthorship W3092587611A5035791112 @default.
• W3092587611 hasAuthorship W3092587611A5036482947 @default.
• W3092587611 hasAuthorship W3092587611A5062206110 @default.
• W3092587611 hasAuthorship W3092587611A5067789347 @default.
• W3092587611 hasAuthorship W3092587611A5076223393 @default.
• W3092587611 hasBestOaLocation W30925876111 @default.
• W3092587611 hasConcept C159985019 @default.
• W3092587611 hasConcept C162681261 @default.
• W3092587611 hasConcept C167310744 @default.
• W3092587611 hasConcept C191897082 @default.
• W3092587611 hasConcept C192562407 @default.

• next