Ultrashort Sintering and Near Net Shaping of Zr-Based AMZ4 Bulk Metallic Glass

Żrodowski, Łukasz; Wróblewski, Rafał; Choma, Tomasz; Rygier, Tomasz; Rosiński, M.; Morończyk, Bartosz; Maweja, Kasonde; Leonowicz, M.; Jaroszewicz, Jakub; Ostrysz, Mateusz; Łacisz, Wojciech; Błyskun, P.; Pomian, Karolina

doi:10.3390/ma14195862

Cited by 3 publications

(2 citation statements)

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“…Based on other studies on crystallization during SPS [ 5 , 14 , 22 , 26 ], the reasons for the occurrence of crystallization in the T x1 in this study are as follows: Unlike conventional heating methods, SPS generates Joule heat directly inside the compacts, which can result in the graphite-die temperature measured by the thermocouple being lower than the actual internal temperature of the compacts. The electrical resistance in the particle-contact area is large, generating a large amount of Joule heat and local overheating.…”

Section: Resultsmentioning

confidence: 99%

“…5 bulk amorphous by SPS and studied the influence of loading pressure on the densification degree and properties of bulk amorphous alloys [ 13 ]. Zrodowski et al prepared a completely Zr-based amorphous alloy with a relative density of 100% by SPS and proved through experiments that SPS could fabricate bulk amorphous alloys with complex shapes [ 14 ]. Moravcikova-Gouvea et al prepared Al 0 .…”

Section: Introductionmentioning

confidence: 99%

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Study of Bulk Amorphous and Nanocrystalline Alloys Fabricated by High-Sphericity Fe84Si7B5C2Cr2 Amorphous Powders at Different Spark-Plasma-Sintering Temperatures

et al. 2022

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The new generation of high-frequency and high-efficiency motors has high demands on the soft magnetic properties, mechanical properties and corrosion resistance of its core materials. Bulk amorphous and nanocrystalline alloys not only meet its performance requirements but also conform to the current technical concept of integrated forming. At present, spark plasma sintering (SPS) is expected to break through the cooling-capacity limitation of traditional casting technology with high possibility to fabricate bulk metallic glasses (BMGs). In this study, Fe84Si7B5C2Cr2 soft magnetic amorphous powders with high sphericity were prepared by a new atomization technology, and its characteristic temperature was measured by DSC to determine the SPS temperature. The SEM, XRD, VSM and universal testing machine were used to analyze the compacts at different sintering temperatures. The results show that the powders cannot be consolidated by cold pressing (50 and 500 MPa) or SPS temperature below 753 K (glass transition temperature Tg = 767 K), and the tap density is only 4.46 g·cm−3. When SPS temperature reached above 773 K, however, the compact could be prepared smoothly, and the density, saturation magnetization, coercivity and compressive strength of the compacts increased with the elevated sintering temperature. In addition, due to superheating, crystallization occurred even when the sintering temperature was lower than 829 K (with the first crystallization onset temperature being Tx1 = 829 K). The compact was almost completely crystallized at 813 K, resulting in a sharp increase in the coercivity of the compact from 55.55 A·m−1 at 793 K to 443.17 A·m−1. It is noted that the nanocrystals kept growing in size as the temperature increased to 833 K, which increased the coercivity remarkably but showed an enhanced saturation magnetization.

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