On plastic deformation of bulk metallic glasses in Bridgman anvils

Korznikova, G. F.; Czeppe, T.; Корзников, А. В.

doi:10.22226/2410-3535-2014-2-117-120

Cited by 6 publications

(2 citation statements)

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“…Образование вихревых структур во время ИПДК наблюдается и анализируется в различных материалах, включая дуплексную нержавеющую сталь, эвтектоидный сплав Zn-22 вес.% Al, алюминий высокой чистоты (99.99 %) и в объемных металлических стеклах [16 -18]. Подобные неустойчивости к изгибу или складыванию имеют место и в других процессах пластического сдвига твердых тел, таких как трение и сдвиговая деформация изогнутых тел, и могут быть объяснены образованием вихревоподобных складчатых неустойчивостей, которые могут появляться на границе раздела между двумя разнородными жидкостями, движущимися с разной скоростью [18,19].…”

Section: результаты и их обсуждениеunclassified

On the possibility of applying severe plastic deformation by high pressure torsion for the manufacture of Al-Nb metal matrix composites

et al. 2020

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The article discusses the possibility of fabrication an aluminium based matrix composite of the Al-Nb hybrid system using severe plastic deformation by high pressure torsion (HPT). Disks of aluminum (with diameters from 6 to 12 mm) and niobium (12 mm in diameter), were stacked in the form of a three-layer Al-Nb-Al package, and subjected to deformation. HPT was carried out at room temperature on Bridgman anvils under a pressure of 5 GPa at N =10, 25 and 30 revolutions, at a strain rate of ω =1 and 2 rpm. Regardless of the choice of the aluminum disk diameter and the deformation modes, monolithic and defect-free samples were fabricated. However, the most effective fragmentation and distribution of niobium in the aluminum matrix was observed when a diameter of aluminum discs was 10 mm and deformation modes N = 25 and 30 revolutions and ω = 2 rpm were applied. Three structural areas were found in the processed samples: the central one with wide curved layers of niobium in aluminum, a finely dispersed lamellar structure in the mid radius area, and a uniform distribution of niobium particles in aluminum matrix at the periphery. The observed heterogeneity of the structure in the samples correlated well with changes in microhardness, the values of which varied nonmonotonically: the minimum level (about 100 HV) was observed in the center, the maximum values (about 280 and 300 HV) in the middle of the radius and about 130 HV at the periphery of the sample, for N = 25 and 30 revolutions, respectively. In addition, it was shown by X-ray diffraction methods that at a higher strain rate and N = 25 and 30, strain-induced aging occurred in the composite material with the synthesis of the hardening intermetallic phase Al 3 Nb, the volume fraction of which increased from 2.8 to 3.1 % with increasing number of revolutions.

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Section: результаты и их обсуждениеunclassified

On the possibility of applying severe plastic deformation by high pressure torsion for the manufacture of Al-Nb metal matrix composites

et al. 2020

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“…Numerous studies have shown the effect of HPT on the structure and properties of amorphous alloys [11][12][13][14][15][16][17][18][19][20][21][22][23][24][25][26][27]-in particular, reviews have been recently published [28,29]. HPT deformation leads to partial nanocrystallization in some amorphous alloys [28][29][30].…”

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confidence: 99%

Influence of High-Pressure Torsion and Accumulative High-Pressure Torsion on Microstructure and Properties of Zr-Based Bulk Metallic Glass Vit105

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Astanin

Churakova

et al. 2020

Metals

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Vit105 (Zr52.5Cu17.9Ni14.6Al10Ti5 at. %) bulk metallic glass samples were processed by high-pressure torsion and accumulative high-pressure torsion. By DSC, XRD and SANS methods it was shown that accumulative high-pressure torsion allows for achieving high real strains and leads to an increase in the free volume and significant transformation of the structure. Minor crystallization was detected after high-pressure torsion processing.

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