Results 11 to 20 of about 7,411 (183)
In this paper, we present the mechanisms of premature fracture of modular neck stems in two case studies: (I) when the neck and stem are both made of the same Ti6Al4V alloy, and (II) when the neck and stem are made from two different alloys, CoCrMo and Ti6Al4V alloy. Our study integrates two orthopedic patients who have undergone primary uncemented THA
Drago Dolinar +10 more
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Microstructure and Properties of Nanostructured Coating on Ti6Al4V [PDF]
Implant surface properties of Ti6Al4V alloy that is currently used as a biocompatible material because of a variety of unique properties can be improved by a self-organized TiO2 layer. The TiO2 nanotubes forming on the titanium-based materials is a relatively recent technology for the surface properties modification and represents pronounced potential ...
Veronika Jordanovová +5 more
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Titanium alloy Ti6Al4V possesses a range of highly interesting properties such as excellent corrosion resistance, bio-compatibility and high specific stress but suffers from poor wear resistance.
Michel Drouet +4 more
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The fretting corrosion behaviours of Al2O3 ceramic/Ti6Al4V alloy, 316 L stainless/Ti6Al4V alloy, and CoCrMo alloy/Ti6Al4V alloy pairs were studied in an in-house developed fretting-corrosion tester.
Jian Pu +4 more
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Post-Processing of Complex SLM Parts by Barrel Finishing
Selective laser melting (SLM) enables the production of metal complex shapes that are difficult or impossible to obtain with conventional production processes.
Alberto Boschetto +3 more
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Femtosecond laser processing of advanced technical materials
Ultra-short pulsed laser ablation may be used for high-precision machining with very low thermal influence on the processed materials. Due to this reason, lasers are increasingly used for processing of advanced materials, such as titanium alloys, nickel ...
Tomáš Primus +3 more
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W7Ni3Fe-Ti6Al4V bimetallic layered structures via directed energy deposition
Bimetallic structures of Ti6Al4V-W7Ni3Fe were fabricated via directed energy deposition (DED)-based additive manufacturing (AM). Our research demonstrates the ability of DED-based AM to control Ti6Al4V-W7Ni3Fe bimetallic structures with tailorable ...
Yanning Zhang +3 more
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Titanium Ti6Al4V alloy reinforced by the addition of nano yttria stabilized zirconia fabricated by selective additive manufacturing: microstructure and mechanical investigations [PDF]
Additive manufactured Ti6Al4V reinforced with nano yttria-zirconia (nYSZ) parts were fabricated using selective laser melting technology (SLM). The as-received Ti6Al4V powder and two powder mixtures of Ti6Al4V mixed with several nYSZ contents (1wt% and 2.
HATTAL Amine +6 more
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Functional bimetallic joints of Ti6Al4V to SS410 [PDF]
Bimetallic structures provide a unique solution to achieve site-specific functionalities and enhanced-property capabilities in engineering structures but suffer from bonding compatibility issues. Materials such as titanium alloy (Ti6Al4V) and stainless steel (SS410) have distinct attractive properties but are impossible to reliably weld together using ...
Bonny, Onuike, Amit, Bandyopadhyay
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Tribology of Ti6Al4V: A review [PDF]
AbstractThe deleterious innate attribute of Ti6Al4V, the workhorse material among the alloy series of titanium is its incompetent tribo-behavior. Infinite surface modification techniques, viz., the accretion of adherent appendage layers, diffusion hardening, infusion of residual stresses, microstructural evolution, and phase transformations were ...
Jibin T Philip +2 more
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