Formation, properties and microstructure of amorphous/crystalline composite Ag20Cu30Ti50 alloy using miscibility gap

Ziewiec, Krzysztof; Kędzierski, Z.; Zielińska‐Lipiec, A.; Stępiński, Janusz; Kąc, S.

doi:10.1016/j.jallcom.2009.04.049

Cited by 16 publications

(10 citation statements)

References 19 publications

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“…There are attempts to enhance the plastic deformation in these materials by forming heterogeneous microstructures of amorphous-amorphous [1][2][3][4][5][6][7][8] and amorphous-crystalline [9][10][11][12][13][14][15] composites. The majority of amorphous alloys are multi-component, and glass-forming generally requires high concentrations of alloying additions.…”

Section: Introductionmentioning

confidence: 99%

MICROSTRUCTURE AND MECHANICAL PROPERTIES OF AMORPHOUS/CRYSTALLINE DUCTILE LIQUID IMMISCIBLE Fe-Si-B-In ALLOY PRODUCED BY TWO-COMPONENT MELT-SPINNING

Ziewiec

Wojciechowska

Mucha

et al. 2017

mafe

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Microstructure and mechanical properties of amorphous/crystalline ductile liquid immiscible Fe-Si-B-In alloy produced by two-component melt-spinning Mikrostruktura i właściwości mechaniczne ciągliwego stopu amorficzno-krystalicznego na osnowie Fe-Si-B-In wytworzonego przez odlewanie na wirujący walec z tygla dzielonego AbstractThe two-component melt-spun (TCMS) Fe 71.25 Si 9.5 B 14.25 In 5 alloy was produced from Fe 75 Si 10 B 15 and Fe 67.5 Si 9 B 13.5 In 10 alloys. The microstructure of the TCMS alloy was investigated by means of scanning electron microscopy (SEM) and X-ray diffraction (XRD). A tensile test of the alloy resulted in a tensile strength of R m = 1040 MPa, yield strength R e = 919 MPa, total plastic elongation e tot = 3.29%, and traces of plastic deformation on the surface of the Fe-Si-B-In TCMS sample. Microstructural analysis of the amorphous/crystalline composite and tensile sample free surface show the reason for the ductility of the sample in relation to the Fe 75 Si 10 B 15 alloy. Keywords: metallic glasses, X-ray diffraction (XRD), scanning electron microscopy (SEM), tensile test, ductility

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Section: Introductionmentioning

confidence: 99%

MICROSTRUCTURE AND MECHANICAL PROPERTIES OF AMORPHOUS/CRYSTALLINE DUCTILE LIQUID IMMISCIBLE Fe-Si-B-In ALLOY PRODUCED BY TWO-COMPONENT MELT-SPINNING

Ziewiec

Wojciechowska

Mucha

et al. 2017

mafe

Self Cite

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“…7(f)). Such a unique structure has never been reported in rapidly solidified ribbons of alloys, which have undergone simultaneously liquid phase separation and amorphous phase formation [1][2][3][4][5][6][7][8][9][10][11][12][13]. On the Fe 40 Cu 40 B 20 alloy ribbon (Fig.…”

Section: Resultsmentioning

confidence: 87%

“…Furthermore, rapid solidification can be used to change the material's solidification mode (for example, from eutectic to dendrite solidification mode) and for the suppression of segregation, structural refinement, liquid phase separation, and so on. Recently, the formation of a unique solidification structure in a rapidly solidified melt-spun ribbon was reported for alloys that underwent simultaneous liquid phase separation and an amorphous phase formation [1][2][3][4][5][6][7][8][9][10][11][12][13]. The formation of nano-scale emulsion-type structures (nanoscale globule-dispersed structures), multi-scale globule-dispersed structures, marble-type structures (entangled duplex structures), macroscopically phase-separated dual-layer structures, etc.…”

Section: Introductionmentioning

confidence: 99%

Formation of macroscopically phase separated Cu-colored melt-spun ribbon in (Fe0.5Cu0.5)100−B (x= 0, 5, 10, and 20) alloys

Nagase

Yokoyama

Umakoshi

2011

Journal of Alloys and Compounds

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“…%) were synthesized by arc melting (Edmund Bühler Arc Melter AM). This method is suitable for synthesis of most metallic alloys, including glass-forming alloys [21], high entropy [22] and conventional crystalline Fe-based alloys [23]. The elemental Cu (purity of 99.995%), Zr, Al (99.999%), Y (99.9%) and Zr (99.8% or 99.5%) in two forms, rod and crystal bar, were used for alloy synthesis.…”

Section: Methodsmentioning

confidence: 99%

Effect of Zr Purity and Oxygen Content on the Structure and Mechanical Properties of Melt-Spun and Suction-Cast Cu46Zr42Al7Y5 Alloy

Kozieł¹,

Latuch²,

Cios³

et al. 2016

Archives of Metallurgy and Materials

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The effect of oxygen content in zirconium on the structure and mechanical properties of the Cu 46 Zr 42 Al 7 Y 5 alloy, in the form of melt-spun ribbons and suction-cast rods, was investigated. Two types of Zr, rod and crystal bar of different nominal purities and oxygen contents, were used to synthesize the alloy by arc melting. Rapidly solidified ribbons were produced by melt spinning and their amorphous structures were confirmed by X-ray diffractometry (XRD) and differential scanning calorimetry (DSC). Bulk samples in the form of rods were cast using a special water-cooled suction casting unit attached to the arc melting system. XRD and DSC studies proved the amorphous structure of the bulk alloy synthesized from low-oxygen Zr and partial crystallization of the same alloy for high-oxygen Zr. In both bulk samples, uniformly distributed crystalline particles were identified as yttrium oxides. Higher mean compressive strength of amorphous alloy was observed. The hardness of amorphous phase was close to 500 HV1 in both bulk alloys, while the hardness of crystalline dendritic areas, observed in the alloy synthesized from high oxygen Zr, was lower by about 50 HV1.

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Formation, properties and microstructure of amorphous/crystalline composite Ag20Cu30Ti50 alloy using miscibility gap

Cited by 16 publications

References 19 publications

MICROSTRUCTURE AND MECHANICAL PROPERTIES OF AMORPHOUS/CRYSTALLINE DUCTILE LIQUID IMMISCIBLE Fe-Si-B-In ALLOY PRODUCED BY TWO-COMPONENT MELT-SPINNING

MICROSTRUCTURE AND MECHANICAL PROPERTIES OF AMORPHOUS/CRYSTALLINE DUCTILE LIQUID IMMISCIBLE Fe-Si-B-In ALLOY PRODUCED BY TWO-COMPONENT MELT-SPINNING

Formation of macroscopically phase separated Cu-colored melt-spun ribbon in (Fe0.5Cu0.5)100−B (x= 0, 5, 10, and 20) alloys

Effect of Zr Purity and Oxygen Content on the Structure and Mechanical Properties of Melt-Spun and Suction-Cast Cu46Zr42Al7Y5 Alloy

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