The reactive liquid Mg infiltration process to produce large superconducting bulk MgB2 manufacts

“…Detailed analysis suggests that material has about 5% MgO and13% Mg. MgO has likely formed as a result of reaction between excess Mg and O during milling process that was used to powder the bulk. Giunchi et al reported the presence of boron rich phases such as Mg 2 B 25, MgB 4 or MgB 7 in the reactive liquid infiltration process [31,33], although no such phases were detected in the samples prepared in this study. This may be explained by the Mg-rich atmosphere generated intrinsically as part of the fabrication process, which facilitates the formation of Mg-rich borides in the MgB x family, and MgB 2 in particular.…”

“…Improved versions of this process were reported subsequently by Giunchi et al [30] for the fabrication of bulk MgB 2 artefacts, in which Mg bulk and B powder are placed in a metallic container. The container was then welded closed and heat-treated at 950 ºC to obtain dense, bulk MgB 2 , with the initial arrangement of B and Mg bulk in the container being used to define the geometry of the final product [31].…”

Synthesis of dense bulk MgB₂by an infiltration and growth process

“…Detailed analysis suggests that material has about 5% MgO and13% Mg. MgO has likely formed as a result of reaction between excess Mg and O during milling process that was used to powder the bulk. Giunchi et al reported the presence of boron rich phases such as Mg 2 B 25, MgB 4 or MgB 7 in the reactive liquid infiltration process [31,33], although no such phases were detected in the samples prepared in this study. This may be explained by the Mg-rich atmosphere generated intrinsically as part of the fabrication process, which facilitates the formation of Mg-rich borides in the MgB x family, and MgB 2 in particular.…”

“…Improved versions of this process were reported subsequently by Giunchi et al [30] for the fabrication of bulk MgB 2 artefacts, in which Mg bulk and B powder are placed in a metallic container. The container was then welded closed and heat-treated at 950 ºC to obtain dense, bulk MgB 2 , with the initial arrangement of B and Mg bulk in the container being used to define the geometry of the final product [31].…”

Synthesis of dense bulk MgB₂by an infiltration and growth process

“…Each manufacture requires a careful design of the container and a careful distribution of the reactants. The presence of small islands of Mg 2 B 25 can cause a local reduction of the superconducting current density [8]. If the application needs temperatures higher than 77 K, high-temperature superconductors (HTSs) must be used.…”

“…If temperatures lower than 40 K are allowed by the application, magnesium diboride (MgB 2 ) can be used to make efficient magnetic shields [6]. The reactive liquid infiltration method allows one to realize superconducting tubes with lengths of several tens of centimetres [8,9]. This method consists in a liquid infiltration of magnesium inside preforms of boron powders, in a closed metallic container that is heated at around 900 °C for one half to several hours.…”

Field penetration into hard type-II superconducting tubes: effects of a cap, a non-superconducting joint, and non-uniform superconducting properties

“…The reaction between liquid Mg and B powder produces a more stable material, with respect to the hot pressing technique, at temperatures of a few hundred K above the Mg melting point and at moderate pressure. This procedure allows one to obtain specimens of high density and dimensions of the order of tens on centimeters, showing very high mechanical strength [19,20].…”

Microwave response of a cylindrical cavity made of bulk MgB2 superconductor