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spinal disc-wear simulation standards
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Series: ASM Handbook
Volume: 23
Publisher: ASM International
Published: 01 June 2012
DOI: 10.31399/asm.hb.v23.a0005655
EISBN: 978-1-62708-198-6
...-ceramic, developed by Kokubo et al. ( Ref 27 ), has shown particular promise; applications include reconstruction of vertebrae, spinal discs, and iliac crest and filling of bone defects. The A-W glass-ceramic forms a direct bond to bone that is stable over a prolonged period of time. Similar to...
Abstract
Ceramics are used widely in a number of different clinical applications in the human body. This article provides a brief history of the bioceramics field and information on the classification of the different types of bioceramics. These include bioinert ceramics, bioactive ceramics, and bioresorbable ceramics. The article describes the third-generation bioceramics, classified by Hench and Polak, such as silicate-substituted hydroxyapatite and bone morphogenic protein-carrying calcium phosphate coatings. It reviews several examination methods that are used to test the biocompatibility of ceramics, namely, biosafety testing, biofunctionality testing, bioactivity testing, and bioresorbability testing.
Book Chapter
Series: ASM Handbook
Volume: 23
Publisher: ASM International
Published: 01 June 2012
DOI: 10.31399/asm.hb.v23.a0005673
EISBN: 978-1-62708-198-6
... content is kept low in steels that require high ductility, high toughness, and good weldability but is maintained at higher levels in steels that require high strength, high hardness, fatigue resistance, and wear resistance ( Ref 8 ). Figure 1 shows the iron-carbon phase diagram and the changes that...
Abstract
Stainless steels are used for medical implants and surgical tools due to the excellent combination of properties, such as cost, strength, corrosion resistance, and ease of cleaning. This article describes the classifications of stainless steels, such as austenitic stainless steels, martensitic stainless steels, ferritic stainless steels, precipitation-hardening stainless steels, and duplex stainless steels. It contains a table lists common medical device applications for stainless steels. The article discusses the physical metallurgy, and physical and mechanical properties of the stainless steels. Medical device considerations for stainless steels, such as fatigue strength, corrosion resistance, and passivation techniques, are reviewed. The article describes the process features of the implant-grade stainless steels, including type 316L, type 316LVM, nitrogen-strengthened, ASTM F1314, ASTM F1586, ASTM F2229, and ASTM F2581 stainless steels.