Influence of Chemical Composition on the Physical–Mechanical Properties of Some Experimental Titanium Alloys for Dental Implants
Vlad-Gabriel Vasilescu, Lucian Toma Ciocan, Andreia Cucuruz, Florin Miculescu, Alexandru Paraschiv, Gheorghe Matache, Marian Iulian Neacșu, Elisabeta Vasilescu, Marina Imre, Silviu Mirel Pițuru, Claudiu Ștefan Turculeț

TL;DR
This paper studies new titanium alloys for dental implants, focusing on how their chemical composition affects mechanical properties and potential for clinical use.
Contribution
The study introduces four new titanium alloys with optimized chemical compositions for improved mechanical and biocompatible properties in dental implants.
Findings
Ti3 alloy shows high strength suitable for intense stress conditions.
Ti4 alloy is highly ductile and easy to process for clinical applications.
All four alloys have lower modulus of elasticity than common dental implant materials.
Abstract
Background/Objectives: The main objective of optimizing the composition of dental implants is to improve tissue compatibility for enhanced biological/biochemical performance. In this context, research on the development of new titanium alloys in dental implantology considers the careful selection of alloying elements, both in terms of biocompatibility (their lack of toxicity) and their potential to improve the metallurgical processing capacity (thermal and/or thermomechanical), which through controlled microstructural changes lead to the optimal combination of properties for functionality and durability of the implant. The purpose of the research is to study the influence of alloying elements on the phase composition and physical–mechanical properties of experimental titanium alloys. Methods: Four alloys with original chemical compositions were developed, coded in the experiments as…
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Taxonomy
TopicsTitanium Alloys Microstructure and Properties · Dental Implant Techniques and Outcomes · Additive Manufacturing Materials and Processes
