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2021
Titanium alloys represent the gold standard for permanent implant materials due to a range of factors, including high strength, excellent corrosion resistance, benign physiological impact, and moderate elastic properties. Despite this, there is still a demand for improved mechanical properties, most notably a lower elastic modulus and a greater ...
Biesiekierski, Arne +3 more
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Titanium alloys represent the gold standard for permanent implant materials due to a range of factors, including high strength, excellent corrosion resistance, benign physiological impact, and moderate elastic properties. Despite this, there is still a demand for improved mechanical properties, most notably a lower elastic modulus and a greater ...
Biesiekierski, Arne +3 more
openaire +2 more sources
A Review on Biomedical Titanium Alloys: Recent Progress and Prospect
Advanced Engineering Materials, 2019Compared with stainless steel and Co–Cr‐based alloys, Ti and its alloys are widely used as biomedical implants due to many fascinating properties, such as superior mechanical properties, strong corrosion resistance, and excellent biocompatibility.
Lai‐Chang Zhang, Liangyu Chen
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Review of the Design of Titanium Alloys with Low Elastic Modulus as Implant Materials
Advanced Engineering Materials, 2020Herein, an extensive review of the design of titanium alloys with low elastic modulus as implant materials is provided. Due to the high specific strength, low elastic modulus, fatigue resistance, anticorrosion, biocompatibility, and so on, titanium ...
S. Liang
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2001
Abstract This article discusses the role of alloying in the production and use of titanium. It explains how alloying elements affect transformation temperatures, tensile and creep strength, elasticity, hardness, and corrosion behaviors.
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Abstract This article discusses the role of alloying in the production and use of titanium. It explains how alloying elements affect transformation temperatures, tensile and creep strength, elasticity, hardness, and corrosion behaviors.
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International Materials Reviews, 2020
Metastable β Ti alloys are widely projected for manufacturing the next generation of biomedical implants. The primary applications of these materials are envisaged in orthopedic, cardiovascular, and orthodontic biomedical devices.
S. Bahl, S. Suwas, K. Chatterjee
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Metastable β Ti alloys are widely projected for manufacturing the next generation of biomedical implants. The primary applications of these materials are envisaged in orthopedic, cardiovascular, and orthodontic biomedical devices.
S. Bahl, S. Suwas, K. Chatterjee
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A Review on High‐Strength Titanium Alloys: Microstructure, Strengthening, and Properties
Advanced Engineering Materials, 2019The authors review the recent advances in the development of high‐strength titanium alloys. First, they summarize conventional strengthening approaches and their mechanisms, thecorresponding microstructures, and the optimized mechanical properties ...
L. Kang, Chao Yang
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Review of micro-arc oxidation of titanium alloys: Mechanism, properties and applications
Journal of Alloys and Compounds, 2023Gangqiang Li +6 more
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Mechanical properties of near alpha titanium alloys for high-temperature applications - a review
, 2020This paper aims to present a broad review of near-a titanium alloys for high-temperature applications.,Following a brief introduction of titanium (Ti) alloys, this paper considers the near-α group of Ti alloys, which are the most popular high-temperature
Vitus Mwinteribo Tabie +4 more
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