New Developments of Ti-Based Alloys for Biomedical Applications
TLDR
Efforts have been made to reveal the latest scenario of bulk and porous Ti-based materials for biomedical applications, emphasizing their current status, future opportunities and obstacles for expanded applications.Abstract:
Ti-based alloys are finding ever-increasing applications in biomaterials due to their excellent mechanical, physical and biological performance. Nowdays, low modulus β-type Ti-based alloys are still being developed. Meanwhile, porous Ti-based alloys are being developed as an alternative orthopedic implant material, as they can provide good biological fixation through bone tissue ingrowth into the porous network. This paper focuses on recent developments of biomedical Ti-based alloys. It can be divided into four main sections. The first section focuses on the fundamental requirements titanium biomaterial should fulfill and its market and application prospects. This section is followed by discussing basic phases, alloying elements and mechanical properties of low modulus β-type Ti-based alloys. Thermal treatment, grain size, texture and properties in Ti-based alloys and their limitations are dicussed in the third section. Finally, the fourth section reviews the influence of microstructural configurations on mechanical properties of porous Ti-based alloys and all known methods for fabricating porous Ti-based alloys. This section also reviews prospects and challenges of porous Ti-based alloys, emphasizing their current status, future opportunities and obstacles for expanded applications. Overall, efforts have been made to reveal the latest scenario of bulk and porous Ti-based materials for biomedical applications.read more
Citations
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Journal ArticleDOI
Preparation, structure, and properties of porous materials based on titanium
Michail I. Alymov,E. V. Evstratov,Alexey B. Ankudinov,V. A. Zelensky,O. A. Golosova,A. Yu. Kolobova +5 more
TL;DR: In this paper, a method of preparation of titanium materials with a porous surface layer by hydrostatic pressing and subsequent high-temperature sintering with use of a pore former as a temporary space holder was proposed.
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Recent developments in nonferrous metals and related materials for biomedical applications in China: a review
TL;DR: This work provides recent research findings and succinct insights into the developments in NMRMs for biomedical applications in China, including the use of titanium, magnesium, copper, zinc, cobalt, zirconium, hafnium, niobium, rhenium, tantalum, tungsten, silver, gold, platinum, palladium and their alloys and compounds.
Journal ArticleDOI
Electrochemical and thermal-induced degradation of additively manufactured titanium alloys: a review
TL;DR: Titanium (Ti)-based alloys wield unique combination of mechanical, chemical, and high temperature properties, which place them at the forefront of engineering applications ranging from biomedical t... as mentioned in this paper.
Proceedings ArticleDOI
Novel Ti-Nb alloys with improved wear resistance for biomedical implant application
TL;DR: The present study involved fabrication of titanium niobium based alloys having elastic modulus close to that of human bone and subsequently determining the wear resistance of these alloys for biomedical application showed improved wear resistance.
Journal ArticleDOI
Effect of Cooling and Annealing Conditions on the Microstructure, Mechanical and Superelastic Behavior of a Rotary Forged Ti–18Zr–15Nb (at. %) Bar Stock for Spinal Implants
K. Lukashevich,V. Sheremetyev,Alexander Komarov,Vladimir Cheverikin,Vladimir Andreev,Sergey Prokoshkin,Vladimir Brailovski +6 more
TL;DR: In this article , the microstructure, phase state, texture, superelastic and mechanical properties of a shape memory alloy subjected to a combined thermomechanical treatment, including hot rotary forging with either air cooling or water quenching and post-deformation annealing are studied.
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