Karakterizacija toplotno obdelanih dentalnih zlitin Co-Cr-Mo in Co-Cr-W-Mo : magistrsko delo

Zupančič, Katja

Karakterizacija toplotno obdelanih dentalnih zlitin Co-Cr-Mo in Co-Cr-W-Mo : magistrsko delo
ID Zupančič, Katja (Avtor), ID Nagode, Aleš (Mentor) Več o mentorju... Povezava se odpre v novem oknu

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Izvleček

Zlitine Co-Cr imajo dobre mehanske lastnosti, kot so: visoka trdota, odlične magnetne lastnosti in dobra odpornost proti koroziji. Zaradi tega se največkrat uporabljajo kot dentalni in ortopedski implantanti. Običajno se za izdelavo implantantov uporabljata zlitina Co-Cr-Mo v litem stanju in zlitina Co-Ni-Cr-Mo v kovanem stanju. V okviru magistrske naloge smo preiskovali dve dentalni zlitini, in sicer zlitini Co-Cr-Mo (Argeloy Pharmal) in Co-Cr-W-Mo (Interdent IBOND NF). Cilj magistrske naloge je bil ugotoviti vpliv toplotne obdelave na razvoj mikrostrukture ter ovrednotiti njen vpliv na mehanske in tribološke lastnosti. Preizkušance smo najprej raztopno žarili dve uri na 1200 °C, gasili ter starali na 900 °C eno uro, tri ure in 12 ur. Vzorcem smo analizirali mikrostrukturo s pomočjo vrstičnega elektronskega mikroskopa, ki je opremljen z EDS detektorjem za mikrokemijsko analizo. Prav tako smo izmerili trdoto po Vickersovi metodi in analizirali obrabne obstojnosti obeh zlitin. Zlitini Co-Cr-Mo in Co-Cr-W-Mo sta bili dobavljeni v litem stanju. Mikrostruktura zlitine Co-Cr-Mo je bila sestavljena iz dendritov faze ? (pck) na osnovi kobalta in kroma, v meddendritnem prostoru pa so bili prisotni karbidi M23C6. Med staranjem so se tvorili tudi drobni izločki M23C6, ki so povečali trdnostne lastnosti zlitine. Prav tako smo v zlitini, starani 12 ur, na mejah kristalnih zrn opazili svetle karbide, ki so najverjetneje karbidi M6C na osnovi molibdena. Zlitina Co-Cr-W-Mo je imela v litem stanju usmerjeno rast dendritov od roba proti sredini vzorca. Matica je bila sestavljena iz faze ?, ki je bila trdna raztopina kobalta in kroma, v meddendritnem prostoru pa so bili prisotni tudi karbidi M6C. Pri staranju te zlitine je nastal ?-martenzit (hgz1) in faza hgz2, na katerih so se izločali karbidi. Drobni karbidi so pri daljšem staranju (12 ur) nastali tudi znotraj faze ?. V sklopu magistrske naloge smo izmerili trdoto obeh zlitin v različnih stanjih. Najvišjo trdoto sta imeli zlitini, ki sta bili starani najdlje časa (12 ur), in sicer 393 HV zlitina Co-Cr-W-Mo in 432 HV zlitina Co-Cr-Mo. Pri preizkusu obrabe smo ugotovili, da je boljšo odpornost proti obrabi izkazovala zlitina Co-Cr-Mo, ki je imela tudi na splošno višjo trdoto kot zlitina Co-Cr-W-Mo. Obe sta imeli znake abrazivne in adhezivne obrabe, pri čemer je bilo pri zlitini Co-Cr-W-Mo opaženo tudi puljenje karbidnih delcev. Zlitina Co-Cr-Mo je imela najboljšo odpornost proti obrabi po najdaljšem času staranja (12 ur), medtem ko je imela zlitina Co-Cr-W-Mo najboljšo odpornost proti obrabi v litem stanju. S časom staranja se je pri obeh zlitinah obrabna odpornost povečevala.

Jezik:	Slovenski jezik
Ključne besede:	zlitine Co-Cr, mikrostrukturna analiza, trdota, obrabna obstojnost
Vrsta gradiva:	Magistrsko delo/naloga
Tipologija:	2.09 - Magistrsko delo
Organizacija:	NTF - Naravoslovnotehniška fakulteta
Kraj izida:	Ljubljana
Založnik:	[K. Zupančič]
Leto izida:	2021
Št. strani:	XIX, 65 f.
PID:	20.500.12556/RUL-134133
UDK:	669
COBISS.SI-ID:	92254979
Datum objave v RUL:	24.12.2021
Število ogledov:	908
Število prenosov:	96
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Izvleček:
Jezik:	Angleški jezik
Naslov:	Characterization of heat treated Co-Cr-Mo and Co-Cr-W-Mo dental alloys : master's thesis
Co-Cr alloys exhibit good mechanical properties such as high hardness, good magnetic properties, and good corrosion resistance. These alloys are mostly used such as dental and orthopedic implants, due to their good properties. Co-Cr-Mo and Co-Ni-Cr-Mo alloys are most commonly used in dentistry. In scope of my master thesis work I analyzed two different dental alloys. The first one was Co-Cr-Mo (Argeloy Pharmal), and the other one was Co-Cr-W-Mo (Interdent IBOND NF). The difference between these two alloys was that the first one does not contain tungsten. Goal of the master thesis was to find out how, the heat treatment affected microstructures, hardness, and wear resistance of both alloys. The samples were first solution annealed at 1200 °C for 2 hours in argon atmosphere, then quenched in water, and in the last step, they were aged at 900°C in argon atmosphere for 1, 3 and 12 hours. Afterwards, the microstructures of this alloys were analysed with scanning electron microscope, with EDS analysis for microchemical analysis of chemical compositions of microstructural constituents. Vickers hardness and wear resistance were also measured on samples at different conditions. Co-Cr-Mo and Co-Cr-W-Mo alloys were in as-cast condition when they were delivered. The microstructure of as-cast Co-Cr-Mo alloy, was composed of dendrites of γ phase, which is a solid solution of Co and Cr. In the interdendritic regions M23C6 carbides were present. During the ageing small precipitates of M23C6 carbides were precipitated and lead to additional hardening. After 12 hours of aging bright carbides most likely M6C carbides, rich on Mo, were observed on the grain boundaries. As-cast microstructure of Co-Cr-W-Mo alloy consisted of dendrites of  phase, which showed directional growth from the outside to the centre of the sample.  phase is a solid solution of Co and Cr. Meanwhile in the interdendritic regions M6C carbides were observed. During the ageing of this alloy ε-martensite (hgz1) and hgz2 phase were formed. Addition to this, it was also observed that inside of γ phase small precipitates were formed, which had an impact on additional hardening. Hardness was measured by Vickers method. It was observed that both alloys had the highest hardness after 12 hours of ageing. Co-Cr-Mo alloy had the highest hardness of 432 HV and Co-Cr-W-Mo alloy had the highest hardness of 393 HV. Wear resistance test showed that the Co-Cr-Mo alloy had better wear resistance, than Co-Cr-W-Mo alloy. In scope of wear analysis adhesive and abrasive wear were observed on both alloys. Nevertheless, the pull-out mechanism was only observed on Co-Cr-W-Mo alloy. The best wear resistance had Co-Cr-Mo alloy after 12 hours of ageing, while the Co-Cr-W-Mo alloy had the best wear resistance in quenched extinguished condition. It was concluded that higher resistance to wear occurred after the longer hours of ageing.
Ključne besede:	Co-Cr alloys, microstructure analysis, hardness, resistance wear

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