Effect of biomaterial on integrity and life of artificial hip
Uticaj biomaterijala na integritet i vek veštačkog kuka
2016
Autori
Legweel, KaledOstala autorstva
Sedmak, AleksandarRadaković, Zoran
Đukić, Miloš
Čolić, Katarina
Rakin, Marko
Doktorska teza (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
Hip replacement is a surgical procedure in which parts of the hip joint are removed and replaced with artificial parts, which is known as the prosthesis. Metallic alloys are used for prosthesis, its femoral head and stem are often made of cobalt-chromium alloy. The thesis shows the basic groups of metallic biomaterials and implants used in orthopedics, as well as problems that occur due to failure of these implants. This thesis presents an analysis from a mechanical perspective of Co-Cr multiphase alloy materials that are used in total hip replacement implants. Design parameters that should be considered for hip implants are fatigue and fracture. An experimental elastic-plastic fracture behaviour analysis is presented in order to evaluate a resistance of the aged and unaged MP35N alloy. The width of the final stretch zone is considered a fracture mechanics parameter, but it should be noticed that this parameter is quite difficult to measure. Method for stretch zone width determination ...was analyzed, and beside standard fracture mechanics test, this measuring technique includes scanning electron microscopy (SEM). An attempt has been made to determine the final stretch zone width as a fracture parameter for MP35N alloy. It is shown that critical Ji integral value can be obtained from J-R curve as value that corresponds to the average stretch zone size or average stretch zone width. It is possible to correlate these results with obtained JIc values, and good agreement between them is shown. Another important task was to investigate SEM microphotograph of fracture surface for various specimens and to analyze microstructure of stretch zone. The results indicate that around the crack tip at the stage of crack propagation mixed loading conditions are predominant.
In this thesis a numerical investigation of replacement implant for partial hip arthroplasty is presented. A finite element analysis (FEA) was performed using 3-dimensional models to examine the mechanical behaviour of the femoral component at forces ranging from 3.5 to 6.0 kN. This implant design was chosen for numerical analysis because stress concentration in femoral component lead to implant fracture. Results show that the force magnitudes acting on the implant are of interest, and that they can cause implant stress field changes and implant stability problems, which can lead to implant failure.
For the simulation of crack propagation extended finite element method (XFEM) was used, as being one of the most advanced modeling techniques for this type of problem. Short theoretical background information on the XFEM is provided, as well as the representation of crack and the stress intensity factors computation.
Zamena kuka je hirurška procedura u kojoj se najčešće delovi kuka otklonjaju i zamenjuju veštačkim delovima, poznatim kao proteze. Za proteze se koriste legure metala, a najčešće su femoralna glava i stem proizvedeni od kobalt-hrom legura. U ovoj disertaciji su prikazane osnovne grupe metalnih biomaterijala i implantata koji se koriste u ortopediji kao i problemi zbog kojih dolazi do otkaza tih implantata.
Predstavljena je analiza višefaznih Co-Cr legura koje se koriste kod implanata kuka. Faktori koji se uzimaju u obzir pri izradi dizajna kuka su otpornost na zamor i lom materijala. Analizirane su eksperimentalne elasto-plastične osobine materijala u cilju da se odredi otpornost kako legure MP35N izložene strenju, tako i MP35N legure koja prethodno nije bila izožena starenju. Širina zone ukupnog razvlačenja je određena kao parametar mehanike loma. Metoda za određivanje zone ukupnog razvlačenja je razmatrana, korišćenjem SEM mikroskopa i standardnih testova mehanike loma. Prikazano je... da kritična vrednost Ji integrala može biti dobijena iz J-R krive kao veličina koja odgovara prosečnoj veličini zone razvlačenja ili prosečnoj širini zone razvlačenja. Pokazano je da je moguće porediti ove rezultate sa dobijenim vrednostima JIc, pri čemu je pokazano dobro slaganje dobijenih rezultata. Još jedan bitan zadatak je bio da se ispitaju prelomne površine na velikom broju epruveta korišćenjem SEMa i da se izanalizira mikrostruktura zone razvlačenja. Rezultati su pokazali da oko vrha prsline u fazi propagacije prsline dominantni su uslovi mešovitog opterećenja.
Pored eksperimentalne analize u ovoj disertaciji prikazana je i numerička analiza implantata kuka. Proračun metodom konačnih elemenata je izvršen korišćenjem tordimenzionalnih modela za ispitivanje mehaničkog ponašanja femoralne komponente. Opterećenje je zadato je u obliku sile inteziteta 3.5 - 6.0 kN. Otkaz impantata kuka dolazi zbog loma nastalog usled velike koncentracije napona u zoni femorala. Rezultati pokazuju da intezitet sile koja deluje na implantat predstavljaja bitan faktor koja izaziva promenu napona i stambilnosti, i koja može prouzrokovati otkaz implantata.
Za simulaciju propagacije prsline korišćena je proširana metoda konačnih elemenata, kao jedna od naprednih tehnika za modeliranje ovakbih vrsta problema. Prikazana je prslina, proračun faktora inteziteta napona i kratka teoretska osnova proširene metode konačnih elemenata.
Ključne reči:
hip replacement implant / MP35N multiphase alloy / microstructure / final stretch zone width / stress intensity factor / crack growth / numerical simulations / extended finite element method / implat kuka / MP35N legura / mikrostruktura / širina zone konačnog razvlačenja / intezitet faktora napona / rast prsline / numerička simulacija / proširena metoda konačnih elemenataIzvor:
Univerzitet u Beogradu, Mašinski fakultet, 2016Izdavač:
- Faculty of Mechanical Engineering, University of Belgrade
Napomena:
- Navedeni su: mentor (contributor advisor), članovi komisije (contributor other)
URI
https://nardus.mpn.gov.rs/handle/123456789/7001https://machinery.mas.bg.ac.rs/handle/123456789/6517
Kolekcije
Institucija/grupa
Mašinski fakultetTY - THES AU - Legweel, Kaled PY - 2016 UR - https://nardus.mpn.gov.rs/handle/123456789/7001 UR - https://machinery.mas.bg.ac.rs/handle/123456789/6517 AB - Hip replacement is a surgical procedure in which parts of the hip joint are removed and replaced with artificial parts, which is known as the prosthesis. Metallic alloys are used for prosthesis, its femoral head and stem are often made of cobalt-chromium alloy. The thesis shows the basic groups of metallic biomaterials and implants used in orthopedics, as well as problems that occur due to failure of these implants. This thesis presents an analysis from a mechanical perspective of Co-Cr multiphase alloy materials that are used in total hip replacement implants. Design parameters that should be considered for hip implants are fatigue and fracture. An experimental elastic-plastic fracture behaviour analysis is presented in order to evaluate a resistance of the aged and unaged MP35N alloy. The width of the final stretch zone is considered a fracture mechanics parameter, but it should be noticed that this parameter is quite difficult to measure. Method for stretch zone width determination was analyzed, and beside standard fracture mechanics test, this measuring technique includes scanning electron microscopy (SEM). An attempt has been made to determine the final stretch zone width as a fracture parameter for MP35N alloy. It is shown that critical Ji integral value can be obtained from J-R curve as value that corresponds to the average stretch zone size or average stretch zone width. It is possible to correlate these results with obtained JIc values, and good agreement between them is shown. Another important task was to investigate SEM microphotograph of fracture surface for various specimens and to analyze microstructure of stretch zone. The results indicate that around the crack tip at the stage of crack propagation mixed loading conditions are predominant. In this thesis a numerical investigation of replacement implant for partial hip arthroplasty is presented. A finite element analysis (FEA) was performed using 3-dimensional models to examine the mechanical behaviour of the femoral component at forces ranging from 3.5 to 6.0 kN. This implant design was chosen for numerical analysis because stress concentration in femoral component lead to implant fracture. Results show that the force magnitudes acting on the implant are of interest, and that they can cause implant stress field changes and implant stability problems, which can lead to implant failure. For the simulation of crack propagation extended finite element method (XFEM) was used, as being one of the most advanced modeling techniques for this type of problem. Short theoretical background information on the XFEM is provided, as well as the representation of crack and the stress intensity factors computation. AB - Zamena kuka je hirurška procedura u kojoj se najčešće delovi kuka otklonjaju i zamenjuju veštačkim delovima, poznatim kao proteze. Za proteze se koriste legure metala, a najčešće su femoralna glava i stem proizvedeni od kobalt-hrom legura. U ovoj disertaciji su prikazane osnovne grupe metalnih biomaterijala i implantata koji se koriste u ortopediji kao i problemi zbog kojih dolazi do otkaza tih implantata. Predstavljena je analiza višefaznih Co-Cr legura koje se koriste kod implanata kuka. Faktori koji se uzimaju u obzir pri izradi dizajna kuka su otpornost na zamor i lom materijala. Analizirane su eksperimentalne elasto-plastične osobine materijala u cilju da se odredi otpornost kako legure MP35N izložene strenju, tako i MP35N legure koja prethodno nije bila izožena starenju. Širina zone ukupnog razvlačenja je određena kao parametar mehanike loma. Metoda za određivanje zone ukupnog razvlačenja je razmatrana, korišćenjem SEM mikroskopa i standardnih testova mehanike loma. Prikazano je da kritična vrednost Ji integrala može biti dobijena iz J-R krive kao veličina koja odgovara prosečnoj veličini zone razvlačenja ili prosečnoj širini zone razvlačenja. Pokazano je da je moguće porediti ove rezultate sa dobijenim vrednostima JIc, pri čemu je pokazano dobro slaganje dobijenih rezultata. Još jedan bitan zadatak je bio da se ispitaju prelomne površine na velikom broju epruveta korišćenjem SEMa i da se izanalizira mikrostruktura zone razvlačenja. Rezultati su pokazali da oko vrha prsline u fazi propagacije prsline dominantni su uslovi mešovitog opterećenja. Pored eksperimentalne analize u ovoj disertaciji prikazana je i numerička analiza implantata kuka. Proračun metodom konačnih elemenata je izvršen korišćenjem tordimenzionalnih modela za ispitivanje mehaničkog ponašanja femoralne komponente. Opterećenje je zadato je u obliku sile inteziteta 3.5 - 6.0 kN. Otkaz impantata kuka dolazi zbog loma nastalog usled velike koncentracije napona u zoni femorala. Rezultati pokazuju da intezitet sile koja deluje na implantat predstavljaja bitan faktor koja izaziva promenu napona i stambilnosti, i koja može prouzrokovati otkaz implantata. Za simulaciju propagacije prsline korišćena je proširana metoda konačnih elemenata, kao jedna od naprednih tehnika za modeliranje ovakbih vrsta problema. Prikazana je prslina, proračun faktora inteziteta napona i kratka teoretska osnova proširene metode konačnih elemenata. PB - Faculty of Mechanical Engineering, University of Belgrade T2 - Univerzitet u Beogradu, Mašinski fakultet T1 - Effect of biomaterial on integrity and life of artificial hip T1 - Uticaj biomaterijala na integritet i vek veštačkog kuka UR - https://hdl.handle.net/21.15107/rcub_machinery_6517 ER -
@phdthesis{ author = "Legweel, Kaled", year = "2016", abstract = "Hip replacement is a surgical procedure in which parts of the hip joint are removed and replaced with artificial parts, which is known as the prosthesis. Metallic alloys are used for prosthesis, its femoral head and stem are often made of cobalt-chromium alloy. The thesis shows the basic groups of metallic biomaterials and implants used in orthopedics, as well as problems that occur due to failure of these implants. This thesis presents an analysis from a mechanical perspective of Co-Cr multiphase alloy materials that are used in total hip replacement implants. Design parameters that should be considered for hip implants are fatigue and fracture. An experimental elastic-plastic fracture behaviour analysis is presented in order to evaluate a resistance of the aged and unaged MP35N alloy. The width of the final stretch zone is considered a fracture mechanics parameter, but it should be noticed that this parameter is quite difficult to measure. Method for stretch zone width determination was analyzed, and beside standard fracture mechanics test, this measuring technique includes scanning electron microscopy (SEM). An attempt has been made to determine the final stretch zone width as a fracture parameter for MP35N alloy. It is shown that critical Ji integral value can be obtained from J-R curve as value that corresponds to the average stretch zone size or average stretch zone width. It is possible to correlate these results with obtained JIc values, and good agreement between them is shown. Another important task was to investigate SEM microphotograph of fracture surface for various specimens and to analyze microstructure of stretch zone. The results indicate that around the crack tip at the stage of crack propagation mixed loading conditions are predominant. In this thesis a numerical investigation of replacement implant for partial hip arthroplasty is presented. A finite element analysis (FEA) was performed using 3-dimensional models to examine the mechanical behaviour of the femoral component at forces ranging from 3.5 to 6.0 kN. This implant design was chosen for numerical analysis because stress concentration in femoral component lead to implant fracture. Results show that the force magnitudes acting on the implant are of interest, and that they can cause implant stress field changes and implant stability problems, which can lead to implant failure. For the simulation of crack propagation extended finite element method (XFEM) was used, as being one of the most advanced modeling techniques for this type of problem. Short theoretical background information on the XFEM is provided, as well as the representation of crack and the stress intensity factors computation., Zamena kuka je hirurška procedura u kojoj se najčešće delovi kuka otklonjaju i zamenjuju veštačkim delovima, poznatim kao proteze. Za proteze se koriste legure metala, a najčešće su femoralna glava i stem proizvedeni od kobalt-hrom legura. U ovoj disertaciji su prikazane osnovne grupe metalnih biomaterijala i implantata koji se koriste u ortopediji kao i problemi zbog kojih dolazi do otkaza tih implantata. Predstavljena je analiza višefaznih Co-Cr legura koje se koriste kod implanata kuka. Faktori koji se uzimaju u obzir pri izradi dizajna kuka su otpornost na zamor i lom materijala. Analizirane su eksperimentalne elasto-plastične osobine materijala u cilju da se odredi otpornost kako legure MP35N izložene strenju, tako i MP35N legure koja prethodno nije bila izožena starenju. Širina zone ukupnog razvlačenja je određena kao parametar mehanike loma. Metoda za određivanje zone ukupnog razvlačenja je razmatrana, korišćenjem SEM mikroskopa i standardnih testova mehanike loma. Prikazano je da kritična vrednost Ji integrala može biti dobijena iz J-R krive kao veličina koja odgovara prosečnoj veličini zone razvlačenja ili prosečnoj širini zone razvlačenja. Pokazano je da je moguće porediti ove rezultate sa dobijenim vrednostima JIc, pri čemu je pokazano dobro slaganje dobijenih rezultata. Još jedan bitan zadatak je bio da se ispitaju prelomne površine na velikom broju epruveta korišćenjem SEMa i da se izanalizira mikrostruktura zone razvlačenja. Rezultati su pokazali da oko vrha prsline u fazi propagacije prsline dominantni su uslovi mešovitog opterećenja. Pored eksperimentalne analize u ovoj disertaciji prikazana je i numerička analiza implantata kuka. Proračun metodom konačnih elemenata je izvršen korišćenjem tordimenzionalnih modela za ispitivanje mehaničkog ponašanja femoralne komponente. Opterećenje je zadato je u obliku sile inteziteta 3.5 - 6.0 kN. Otkaz impantata kuka dolazi zbog loma nastalog usled velike koncentracije napona u zoni femorala. Rezultati pokazuju da intezitet sile koja deluje na implantat predstavljaja bitan faktor koja izaziva promenu napona i stambilnosti, i koja može prouzrokovati otkaz implantata. Za simulaciju propagacije prsline korišćena je proširana metoda konačnih elemenata, kao jedna od naprednih tehnika za modeliranje ovakbih vrsta problema. Prikazana je prslina, proračun faktora inteziteta napona i kratka teoretska osnova proširene metode konačnih elemenata.", publisher = "Faculty of Mechanical Engineering, University of Belgrade", journal = "Univerzitet u Beogradu, Mašinski fakultet", title = "Effect of biomaterial on integrity and life of artificial hip, Uticaj biomaterijala na integritet i vek veštačkog kuka", url = "https://hdl.handle.net/21.15107/rcub_machinery_6517" }
Legweel, K.. (2016). Effect of biomaterial on integrity and life of artificial hip. in Univerzitet u Beogradu, Mašinski fakultet Faculty of Mechanical Engineering, University of Belgrade.. https://hdl.handle.net/21.15107/rcub_machinery_6517
Legweel K. Effect of biomaterial on integrity and life of artificial hip. in Univerzitet u Beogradu, Mašinski fakultet. 2016;. https://hdl.handle.net/21.15107/rcub_machinery_6517 .
Legweel, Kaled, "Effect of biomaterial on integrity and life of artificial hip" in Univerzitet u Beogradu, Mašinski fakultet (2016), https://hdl.handle.net/21.15107/rcub_machinery_6517 .