Crystallization kinetics study of melt-spun Zr66.7Ni33.3 amorphous alloy by electrical resistivity measurements

Smili, B.; Abadlia, L.; Bouchelaghem, W.; Fazel, N.; Kaban, I.; Gasser, F.; Gasser, J.G.

doi:10.1007/s10973-018-7737-2

Cited by 4 publications

(3 citation statements)

References 68 publications

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“…Several parameters have been used to determine the glassforming ability of 87,2% Ni; 4,2% Fe; 1,3% Cr; 4,5% Si; 2,8% B alloy. The temperature interval DTx between the glass transition temperature (Tg) and the onset crystallization temperature (Tx) is another glassforming ability indicator [10].…”

Section: Resultsmentioning

confidence: 99%

“…Amorphous metal foils used for electron beam welding experiments made from amorphous alloy: 87,2% Ni; 4,2% Fe; 1,3% Cr; 4,5% Si; 2,8% B, was produced using "Planar flow casting" process consisting in cooling the melt of the amorphous alloy, pre-prepared on a rotatable copper cylinder [9]. The melt ejection from the copper cylinder is due to an overpressure applied to the melts [10].…”

Section: Manufacturing Amorphous Ribbonsmentioning

confidence: 99%

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Research on Welding with Electron Beam of Multiple Overlapping Nickel Based Amorphous Ribbons

Nicolaescu

Codrean

Mnerie

et al. 2020

AMR

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This paper presents experiments regarding the welding with electron beam of multiple overlapping Ni-based amorphous ribbons produced by "Planar flow casting" method [1]. Welded samples were performed, using the electron beam welding equipment “Chamber Machine EBG 45-150 K14” [2]. The welded joints were analyzed by SEM, EDX, XRD in order to optimize some technological parameters to avoid deterioration of the amorphous ribbons during the welding process [3].

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Section: Resultsmentioning

confidence: 99%

Section: Manufacturing Amorphous Ribbonsmentioning

confidence: 99%

Research on Welding with Electron Beam of Multiple Overlapping Nickel Based Amorphous Ribbons

Nicolaescu

Codrean

Mnerie

et al. 2020

AMR

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“…Generally, the crystallization behaviors and crystallization kinetics under different conditions for diverse compositions, that is, binary Zr‐Ni MG, 19 Cu‐Zr MGs, 20,21 and Ni‐Nb MGs 22,23 ; ternary Dy‐Co‐Al MG, 24 U‐Co‐Al MG, 25 La‐Al‐Co MG, 26 Zr‐Al‐Fe MG, 15 Zr‐Co‐Al MGs, 8,27 Fe‐P‐C MG, 18 Fe‐B‐C MG, 28 La‐Al‐Ni MG, 4 and Pd‐Ni‐P MG, 29 ; quaternary Zr‐Cu‐Fe‐Al MG, 30 Zr‐(CuAg)‐Al MG, 7 Fe‐Ni‐P‐B MG, 31 Zr‐Co‐Al‐Cu MG, 27 and Co‐Fe‐Ta‐B MG 13 ; and multicomponent Fe‐Co‐Cr‐Ni‐Zr MG, 6 Fe‐Ni‐Mo‐P‐C‐B‐Cu MG, 32 Ti‐Zr‐Ni‐Cu‐Be MG, 33 Ni‐Nb‐Ti‐Zr‐Co‐Ta MG, 34 Fe‐Cr‐P‐C‐B MG, 17 and Fe‐Co‐Cr‐Mo‐Y‐C‐B MG 35 have been comprehensively investigated. Among these reported investigations, the crystallization kinetics of MGs at the isothermal annealing conditions have been primarily studied 12–17 .…”

Section: Introductionmentioning

confidence: 99%

Tuning isothermal crystallization kinetics by minor similar solute element substitution in novel La‐(AlGa)‐C metallic glasses

Zhang

et al. 2021

Int J of Chemical Kinetics

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In the present text, the effects of minor similar solute element Ga substitution for Al on the isothermal crystallization kinetics of novel light RE‐based La‐(AlGa)‐C metallic glasses (MGs) were systematically investigated between La60Al26Ga4C10 MG and the precursor La60Al30C10 MG by using phase analysis, Johnson–Mehl–Avrami and Arrhenius using x‐ray diffraction, transmission electron microscopy, and differential scanning calorimetry. The incubation period, the accomplishment time of the whole process, and the diversity of both the precipitated phases and the varying trend of the local Avrami exponent are elevated by minor similar solute element Ga substitution for Al, respectively. Additionally, the Avrami exponent of different isothermal crystallization temperature changes from g n > 2.5 to a combination of values 1.5 < n < 2.5 and a value n > 2.5 given by minor similar solute element Ga substitution for Al, corresponding to the crystallization characteristics changing from crystallization with promoting nucleation rate to a combination of crystallization with a reducing nucleation rate and crystallization with promoting nucleation rate. Moreover, the isothermal crystallization process becomes more difficult after minor similar solute element Ga substitution for Al, due to the reduced Avrami exponent and the intensified local activation energy.

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Crystallization kinetics of Cu60Zr25Ti15 and (Cu60Zr25Ti15)95Ni5 bulk metallic glasses by differential scanning calorimetry (DSC)

Mandal

Lee

Park

2020

J Therm Anal Calorim

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Crystallization kinetics study of melt-spun Zr66.7Ni33.3 amorphous alloy by electrical resistivity measurements

Cited by 4 publications

References 68 publications

Research on Welding with Electron Beam of Multiple Overlapping Nickel Based Amorphous Ribbons

Research on Welding with Electron Beam of Multiple Overlapping Nickel Based Amorphous Ribbons

Tuning isothermal crystallization kinetics by minor similar solute element substitution in novel La‐(AlGa)‐C metallic glasses

Crystallization kinetics of Cu60Zr25Ti15 and (Cu60Zr25Ti15)95Ni5 bulk metallic glasses by differential scanning calorimetry (DSC)

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