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The glass-forming Ti75Zr10Si15 alloy is regarded as a potential new material for implant applications due to its composition of non-toxic, biocompatible elements and many interesting mechanical properties. The effects of partial substitution of 15 at.-% Ti by Nb on the microstructure and mechanical behavior of the alloy have been investigated. The limited glass-forming ability (GFA) of the Ti75Zr10Si15 alloy results for melt-spun ribbons mainly in nanocomposite structures with β-type nanocrystals being embedded in a glassy matrix. Addition of Nb increases the glass-forming ability. Raising the overheating temperature of the melt prior to melt-spinning from 1923 K to 2053 K yields a higher amorphous phase fraction for both alloys. A decreas...
Ti40Zr10Cu36Pd14 Bulk Metallic Glass (BMG) appears very attractive for future biomedical application...
Microstructure, mechanical properties, corrosion resistance, and biocompatibility were studied for r...
International audienceIn the present work Ti-Fe-Si and Ti-Fe-Si-X (X = Zr, Pd, Ge) glassy alloys are...
The glass-forming Ti75Zr10Si15 alloy is regarded as a potential new material for implant application...
The development of novel Ti-based amorphous or β-phase nanostructured metallic materials could have ...
The development of novel Ti-based amorphous or β-phase nanostructured metallic materials could have ...
The development of novel Ti-based amorphous or β-phase nanostructured metallic materials could ...
Glass-forming Ti-based alloys are considered as potential new materials for implant applications. Ti...
The glass-forming Ti₇₅Zr₁₀Si₁₅ and Ti₆₀Zr₁₀Nb₁₅Si₁₅ alloys composed of nontoxic elements may represe...
The Ti-based biocompatible human body implants of low Young's modulus and without toxic elements are...
The Ti-based biocompatible human body implants of low Young's modulus and without toxic elements are...
The Ti-based biocompatible human body implants of low Young's modulus and without toxic elements are...
The Ti-based biocompatible human body implants of low Young's modulus and without toxic elements are...
We introduce five new biocompatible Ti-based metallic glass (MG) compositions with different metallo...
Ti40Zr10Cu36Pd14 Bulk Metallic Glass (BMG) appears very attractive for future biomedical application...
Ti40Zr10Cu36Pd14 Bulk Metallic Glass (BMG) appears very attractive for future biomedical application...
Microstructure, mechanical properties, corrosion resistance, and biocompatibility were studied for r...
International audienceIn the present work Ti-Fe-Si and Ti-Fe-Si-X (X = Zr, Pd, Ge) glassy alloys are...
The glass-forming Ti75Zr10Si15 alloy is regarded as a potential new material for implant application...
The development of novel Ti-based amorphous or β-phase nanostructured metallic materials could have ...
The development of novel Ti-based amorphous or β-phase nanostructured metallic materials could have ...
The development of novel Ti-based amorphous or β-phase nanostructured metallic materials could ...
Glass-forming Ti-based alloys are considered as potential new materials for implant applications. Ti...
The glass-forming Ti₇₅Zr₁₀Si₁₅ and Ti₆₀Zr₁₀Nb₁₅Si₁₅ alloys composed of nontoxic elements may represe...
The Ti-based biocompatible human body implants of low Young's modulus and without toxic elements are...
The Ti-based biocompatible human body implants of low Young's modulus and without toxic elements are...
The Ti-based biocompatible human body implants of low Young's modulus and without toxic elements are...
The Ti-based biocompatible human body implants of low Young's modulus and without toxic elements are...
We introduce five new biocompatible Ti-based metallic glass (MG) compositions with different metallo...
Ti40Zr10Cu36Pd14 Bulk Metallic Glass (BMG) appears very attractive for future biomedical application...
Ti40Zr10Cu36Pd14 Bulk Metallic Glass (BMG) appears very attractive for future biomedical application...
Microstructure, mechanical properties, corrosion resistance, and biocompatibility were studied for r...
International audienceIn the present work Ti-Fe-Si and Ti-Fe-Si-X (X = Zr, Pd, Ge) glassy alloys are...
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