but.committee	prof. Ing. Martin Hartl, Ph.D. (předseda) Prof. ing. Alessandro Ruggiero, Ph.D. (člen) Anna Neus Igual Muoz (člen) prof. RNDr. Matej Daniel, Ph.D. (člen) Ing. Petr Šperka, Ph.D. (člen)	cs
but.defence	DDP splňuje požadavky plynoucí z § 47 Zákona č. 111/1998 Sb., Zákona o vysokých školách a o změně a doplnění dalších zákonů a z článku 42 SZŘ VUT v Brně. Obsahuje původní výsledky uveřejněné mj. v jednom článkus v impaktovaném časopise a ve dvou článcích indexovaných v databázi Scopus.	cs
but.jazyk	angličtina (English)
but.program	Stroje a zařízení	cs
but.result	práce byla úspěšně obhájena	cs
dc.contributor.advisor	Vrbka, Martin	en
dc.contributor.author	Rufaqua, Risha	en
dc.contributor.referee	Ruggiero,, Alessandro	en
dc.contributor.referee	Muoz, Anna Neus Igual	en
dc.date.created	2021	cs
dc.description.abstract	The dissertation thesis deals with the lubricant film formation chemistry on hip implant material surfaces with synovial fluid components. Biochemical and tribological properties of synovial fluid after joint replacement are focused, precisely on the chemical composition of the formed lubricating film and chemical structural changes of the associated constituents under mechanical loading. Nevertheless, the synovial fluid components‘ chemical structural changes after the joint replacement are rarely addressed and require further attention. Including metal and ceramics, various combination implant materials were applied within the lubricants of synovial fluid constituents separately and different model synovial fluids to reveal the biochemical reactions and frictional coefficients for understanding the possible lubrication mechanism. Raman Spectroscopic technique is manifested as the most appropriate method to explain the biochemical behaviour of synovial fluid and chemisorption on the surface of the implant material. The method is depicted presenting two different studies focusing on the chemical structure of the synovial fluid film on the implant surface and frictional coefficient measurement of the contact pair within the artificial hip joint. This latest methodological precedent also facilitates to evaluate the chemical structural change of the synovial fluid due to the tribological activity in the hip prosthesis. The thesis expounds original results concerning biotribology to increase the depth of knowledge on joint replacement procedure and to enhance the longevity of the orthopaedic implantations.	en
dc.description.abstract	The dissertation thesis deals with the lubricant film formation chemistry on hip implant material surfaces with synovial fluid components. Biochemical and tribological properties of synovial fluid after joint replacement are focused, precisely on the chemical composition of the formed lubricating film and chemical structural changes of the associated constituents under mechanical loading. Nevertheless, the synovial fluid components‘ chemical structural changes after the joint replacement are rarely addressed and require further attention. Including metal and ceramics, various combination implant materials were applied within the lubricants of synovial fluid constituents separately and different model synovial fluids to reveal the biochemical reactions and frictional coefficients for understanding the possible lubrication mechanism. Raman Spectroscopic technique is manifested as the most appropriate method to explain the biochemical behaviour of synovial fluid and chemisorption on the surface of the implant material. The method is depicted presenting two different studies focusing on the chemical structure of the synovial fluid film on the implant surface and frictional coefficient measurement of the contact pair within the artificial hip joint. This latest methodological precedent also facilitates to evaluate the chemical structural change of the synovial fluid due to the tribological activity in the hip prosthesis. The thesis expounds original results concerning biotribology to increase the depth of knowledge on joint replacement procedure and to enhance the longevity of the orthopaedic implantations.	cs
dc.description.mark	P	cs
dc.identifier.citation	RUFAQUA, R. THE BIOCHEMICAL PROCESS OF LUBRICANT FILM FORMATION INSIDE HIP JOINT REPLACEMENT [online]. Brno: Vysoké učení technické v Brně. Fakulta strojního inženýrství. 2021.	cs
dc.identifier.other	133327	cs
dc.identifier.uri	http://hdl.handle.net/11012/200414
dc.language.iso	en	cs
dc.publisher	Vysoké učení technické v Brně. Fakulta strojního inženýrství	cs
dc.rights	Standardní licenční smlouva - přístup k plnému textu bez omezení	cs
dc.subject	Bio-tribology	en
dc.subject	synovial fluid	en
dc.subject	film formation	en
dc.subject	Raman spectroscopy	en
dc.subject	tribo-chemistry	en
dc.subject	Bio-tribology	cs
dc.subject	synovial fluid	cs
dc.subject	film formation	cs
dc.subject	Raman spectroscopy	cs
dc.subject	tribo-chemistry	cs
dc.title	THE BIOCHEMICAL PROCESS OF LUBRICANT FILM FORMATION INSIDE HIP JOINT REPLACEMENT	en
dc.title.alternative	THE BIOCHEMICAL PROCESS OF LUBRICANT FILM FORMATION INSIDE HIP JOINT REPLACEMENT	cs
dc.type	Text	cs
dc.type.driver	doctoralThesis	en
dc.type.evskp	dizertační práce	cs
dcterms.dateAccepted	2021-06-29	cs
dcterms.modified	2021-07-07-10:22:19	cs
eprints.affiliatedInstitution.faculty	Fakulta strojního inženýrství	cs
sync.item.dbid	133327	en
sync.item.dbtype	ZP	en
sync.item.insts	2025.03.27 14:44:19	en
sync.item.modts	2025.01.16 00:27:35	en
thesis.discipline	Konstrukční a procesní inženýrství	cs
thesis.grantor	Vysoké učení technické v Brně. Fakulta strojního inženýrství. Ústav konstruování	cs
thesis.level	Doktorský	cs
thesis.name	Ph.D.	cs

THE BIOCHEMICAL PROCESS OF LUBRICANT FILM FORMATION INSIDE HIP JOINT REPLACEMENT

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