Publication detail
Advanced Machining of Joint Implant UHMWPE Inserts
PÍŠKA, M. URBANCOVÁ, K.
Czech title
Pokročilé obrábění kloubních UHMWPE implantátů
English title
Advanced Machining of Joint Implant UHMWPE Inserts
Type
journal article in Web of Science
Language
en
Original abstract
The modern orthopaedic implants for applications in hips, knees, shoulders, and spines are composed of hard metal alloys or ceramics and a tribological sub-component that is made of soft materials, with good frictional properties—e.g., UHMWPE (Ultra High Molecule Weight Polyethylene). The UHMWPE implants need to be machined into their final shape after the polymerization and consolidation into a blank profile or near net shaped implant. Thus, machining is a crucial technology that can generate an accurate and precise shape of the implant that should comply with the joints’ function. However, the machining technology can affect the topography and integrity of the surface, transmitted stresses, and resistance to wear. Technology, cutting tools, and cutting conditions can have an impact on the physical and mechanical properties of the entire implant and its longevity. This paper shows an effective and competitive technology for acquiring high-quality insert shape, dimensions, and surface, needed especially for customized implants.
Czech abstract
Moderní ortopedické implantáty pro aplikace v oblasti kyčlí, kolen, ramen a páteře se skládají ze slitin kovů nebo keramiky a obsahují dále tribologické vložky, která jsou vyrobeny z měkkých materiálů s dobrými třecími vlastnostmi – např. UHMWPE (polyetylén s ultra vysokou molekulovou hmotností). Implantáty UHMWPE je třeba po polymeraci opracovat do konečného tvaru implantátu blízkého tvaru kloubu. Obrábění je tedy klíčovou technologií, která dokáže vytvořit přesný a přesný tvar implantátu, který by měl odpovídat funkce kloubů. Technologie obrábění však může ovlivnit topografii a integritu povrchu, přenášená napětí a odolnost proti opotřebení. Technologie, řezné nástroje a řezné podmínky mají vliv na fyzikální a mechanické vlastnosti celého implantátu a jeho životnost. Tento dokument ukazuje efektivní a konkurenceschopnou technologii pro získání vysoce kvalitního tvaru této části, rozměrů a povrchu, potřebného zejména pro personalizované implantáty na míru.
English abstract
The modern orthopaedic implants for applications in hips, knees, shoulders, and spines are composed of hard metal alloys or ceramics and a tribological sub-component that is made of soft materials, with good frictional properties—e.g., UHMWPE (Ultra High Molecule Weight Polyethylene). The UHMWPE implants need to be machined into their final shape after the polymerization and consolidation into a blank profile or near net shaped implant. Thus, machining is a crucial technology that can generate an accurate and precise shape of the implant that should comply with the joints’ function. However, the machining technology can affect the topography and integrity of the surface, transmitted stresses, and resistance to wear. Technology, cutting tools, and cutting conditions can have an impact on the physical and mechanical properties of the entire implant and its longevity. This paper shows an effective and competitive technology for acquiring high-quality insert shape, dimensions, and surface, needed especially for customized implants.
Keywords in Czech
obrábění; UHMWPE; implantát; integrita povrchu; tribologie
Keywords in English
machining; UHMWPE; implant; surface integrity; tribology
Released
01.01.2022
Publisher
MDPI
Location
Basil, Swizerland
ISSN
2075-1702
Volume
10
Number
11
Pages from–to
1–19
Pages count
19
BIBTEX
@article{BUT179800,
author="Miroslav {Píška} and Kateřina {Urbancová},
title="Advanced Machining of Joint Implant UHMWPE Inserts",
year="2022",
volume="10",
number="11",
month="January",
pages="1--19",
publisher="MDPI",
address="Basil, Swizerland",
issn="2075-1702"
}