Publication:
Fracture behavior of novel biomedical Ti-based high entropy alloys under impact loading

dc.contributor.coauthorGerstein, Gregory
dc.contributor.coauthorBal, Burak
dc.contributor.coauthorMaier, Hans Jürgen
dc.contributor.departmentDepartment of Mechanical Engineering
dc.contributor.departmentKUYTAM (Koç University Surface Science and Technology Center)
dc.contributor.departmentAMG (Advanced Materials Group)
dc.contributor.facultymemberYes
dc.contributor.kuauthorCanadinç, Demircan
dc.contributor.kuauthorGürel, Şeyma
dc.contributor.kuauthorYağcı, Mustafa Barış
dc.contributor.schoolcollegeinstituteCollege of Engineering
dc.contributor.schoolcollegeinstituteResearch Center
dc.contributor.schoolcollegeinstituteLaboratory
dc.date.accessioned2024-11-09T22:51:26Z
dc.date.issued2021
dc.description.abstractThis paper focuses on the mechanical properties and fracture behavior of newly developed body-centered-cubic structured TiTaHfNb, TiTaHfNbZr and TiTaHfMoZr high entropy alloys (HEAs) under impact loading as part of an effort to evaluate their potential utility as implant materials. The experimental findings showed all three Ti based HEAs have lower Young's modulus as compared to the conventionally used implant materials. Fractography analysis revealed that the TiTaHfNb HEA demonstrated significant ductility with the highest energy absorption capacity, while the TiTaHfNbZr and the TiTaHfMoZr alloys exhibited mixed mode fracture with relatively low ductility. Specifically, the reduction of ductility and energy absorption capacity under impact loading was attributed to the addition of Zr and Mo into Ti-based HEA system, which facilitates formation of additional dislocations in the microstructure due to increased lattice distortion. The current findings demonstrate that, from a mechanical point of view, the TiTaHfNb HEA could be considered as an alternative implant material for applications demanding high wear and corrosion resistance, such as hip or knee implants, and thus, warrant further investigation of the biomedical performance of this alloy.
dc.description.fulltextNo
dc.description.harvestedfromManual
dc.description.indexedbyWOS
dc.description.indexedbyScopus
dc.description.openaccessNO
dc.description.peerreviewstatusN/A
dc.description.publisherscopeInternational
dc.description.readpublishN/A
dc.description.sponsoredbyTubitakEuN/A
dc.description.sponsorshipTurkish Academy of Sciences (TÜBA)
dc.description.sponsorshipAGU-BAP [FAB-201777]
dc.description.sponsorshipGerman Research Foundation (DFG) [MA 1175/79-1, 316923185]
dc.description.studentonlypublicationNo
dc.description.studentpublicationYes
dc.description.versionN/A
dc.identifier.WoSQuartileQ1
dc.identifier.doi10.1016/j.msea.2020.140456
dc.identifier.eissn1873-4936
dc.identifier.embargoN/A
dc.identifier.grantnoFAB-201777
dc.identifier.grantnoMA 1175/79-1
dc.identifier.grantno316923185
dc.identifier.issn0921-5093
dc.identifier.scopus2-s2.0-85096405398
dc.identifier.urihttps://doi.org/10.1016/j.msea.2020.140456
dc.identifier.urihttps://hdl.handle.net/20.500.14288/6852
dc.identifier.volume803
dc.identifier.wos000612611000001
dc.keywordsHigh entropy alloy
dc.keywordsFracture
dc.keywordsImpact response
dc.keywordsTiTaHfNbZr
dc.keywordsTiTaHfMoZr
dc.keywordsTiTaHfNb
dc.language.isoeng
dc.publisherElsevier
dc.relation.affiliationKoç University
dc.relation.collectionKoç University Institutional Repository
dc.relation.ispartofMaterials Science and Engineering A-Structural Materials Properties Microstructure and Processing
dc.relation.openaccessN/A
dc.rightsN/A
dc.subjectNanoscience
dc.subjectNanotechnology
dc.subjectMaterials science
dc.subjectMetallurgy
dc.subjectMetallurgical engineering
dc.titleFracture behavior of novel biomedical Ti-based high entropy alloys under impact loading
dc.typeJournal Article
dspace.entity.typePublication
local.contributor.kuauthorGürel, Şeyma
local.contributor.kuauthorYağcı, Mustafa Barış
local.contributor.kuauthorCanadinç, Demircan
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