1984
DOI: 10.1007/bf00980780
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Fe-Si-B amorphous alloys with high silicon concentration

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Cited by 29 publications
(4 citation statements)
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“…Mostly, the high APFA of Fe-B alloys enables the formation of the amorphous phase and Si makes additional contribution to it. A fully amorphous phase is achieved within the range of 5-26 at.% B and 0-29 at.% Si [67]. Accordingly, Fe92.4Si3.1B4.5 alloy was produced with SLM with a laser scan speed of 100-150 mm/s and laser power of 90 W by using gas-atomised powder having particle sizes less than 30 µm, purchased from NANOVAL company as Fe92.4Si3.1B4.5 amorphous powder [68].…”
Section: Powder-bed Fusionmentioning
confidence: 99%
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“…Mostly, the high APFA of Fe-B alloys enables the formation of the amorphous phase and Si makes additional contribution to it. A fully amorphous phase is achieved within the range of 5-26 at.% B and 0-29 at.% Si [67]. Accordingly, Fe92.4Si3.1B4.5 alloy was produced with SLM with a laser scan speed of 100-150 mm/s and laser power of 90 W by using gas-atomised powder having particle sizes less than 30 µm, purchased from NANOVAL company as Fe92.4Si3.1B4.5 amorphous powder [68].…”
Section: Powder-bed Fusionmentioning
confidence: 99%
“…The immoderate number of impurity atoms in the interstitial sites is linked to the formation of the amorphous ε-FeSi type structure by distorting the crystal lattice locally. The strong attraction between Fe and Si atoms indicates that APFA may be comparatively high in the Si composition above 20 at.% Si [67]. Furthermore, the large negative heat of mixing between constituents (−26 kJ/mol for Fe-Si and -38 kJ/mol for Fe-B alloys [69]) allows short-range order in the liquid upon laser melting.…”
Section: Powder-bed Fusionmentioning
confidence: 99%
“…Nanocrystalline (NC) and/or amorphous FeSiB alloys have been extensively studied due to their microstructures, which consist of crystalline nanograins embedded in a residual amorphous matrix [1][2][3][4][5]. Consequently, they are very interesting from an economical point of view because they are relatively cheap due to the natural abundance of their elements in the earth.…”
Section: Introductionmentioning
confidence: 99%
“…However, inadequate room temperature ductility and poor high temperature strength have hindered commercial application of this alloy. Recently, many studies have found that microstructural modifications of β-NiAl that included the ductile γ' phase resulted in remarkable enhancement of high temperature strength and room temperature ductility [2][3][4][5][6][7][8].…”
Section: Introductionmentioning
confidence: 99%