Effect of seed orientations on the crystallization characteristics and the magnetic levitation properties of single domain YBCO bulk superconductors

Wu, Ting-Ting; Zhang, Haiyan; Yang, Wan‐Min; Cui, Yan-Lan; Abulaiti, Abulizi

doi:10.1016/j.jallcom.2021.160788

Cited by 5 publications

(6 citation statements)

References 34 publications

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“…Using the values of F max (63.63 N) and the sample diameter (17.5 mm), the force density is calculated as 26.45 N/cm 2 , representing significantly high levitation property and meeting the demands of practical applications. In a recent study by Wu et al, one 20 mm as-pressed and c -axis-oriented YBCO sample fabricated by the 011-IG technique and using the conventional NdBCO crystal seed exhibits a F max value of 54.8 N. It can be seen that although the sample of this study is smaller (i.e., 16 mm as-pressed), it presents an even higher levitation property (63.63 N). The appearance of such a high property is attributed to the new processing that we recently developed for the 011-IG technique: (1) using commercial high-quality NdBCO/YBCO/MgO thin film as the seed to ensure high growth quality of the final YBCO single grains; (2) pressing precursor pellets using the novel divisible mold to eliminate macro and tiny cracks on the sample surface; (3) introducing a powder melting mechanism in the solid pellet through the addition of 5 mol % Ba 3 Cu 5 O 8 to control the bulk size expansion and reduce the inner porosity; (4) using Y 2 O 3 nanopowders and adding 1 wt % CeO 2 nanopowders in the solid pellet to further improve the microstructure.…”

Section: Resultsmentioning

confidence: 56%

A Novel Top Seeding Method for Reliable Growth of Single-Grain YBCO Bulk Superconductor with High Levitation Property above 26 N/cm²

Wang

2022

Crystal Growth & Design

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Section: Resultsmentioning

confidence: 56%

A Novel Top Seeding Method for Reliable Growth of Single-Grain YBCO Bulk Superconductor with High Levitation Property above 26 N/cm²

Wang

2022

Crystal Growth & Design

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“…Few researchers have done work on inner growth rate (Rai) and growth rate of surfaces (Rcs) [98]. Efficient growth rate investigation neither depends on the a-axis, c-axis directions, surface or internal, the foremost important thing is crystal structure growth procedure of YBCO [99].…”

Section: Properties Of Superconductorsmentioning

confidence: 99%

“…The reason is existence of NdBCO crystal seed's c-axis normal to the sample plane. This results in four fold a-axis growth sectors (a-GSs) by means of single domain YBCO bulk lying on apex surface of compounds [99].…”

Section: Properties Of Superconductorsmentioning

confidence: 99%

“…Figure 9 [99] shows the Pa-Y123 group bulks with top surface morphology by means of caxis parallel to upper surface over changed super cooling temperature. The top surface of distinctive YBCO superconductor consisting of single domain is illustrated over variety of ΔT, with no arbitrary nucleation region is detected for all samples.…”

Section: Properties Of Superconductorsmentioning

confidence: 99%

“…Pa-Y123 group is consisted of rectangular form, it is due to the upper surface of samples is along the c-axis of seed NdBCO. Such outcomes reveal that surface growth rate of Ras is lower than the Rcs of YBCO bulk when top surfaces of the samples are parallel to c-axis of seed NdBCO [99]. Cuprates are consisted of considerable materials after the innovation of high oxide superconductors [101], Bi-based high-temperature superconductors (HTSC).…”

Section: Properties Of Superconductorsmentioning

confidence: 99%

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Properties and Types of Superconductors

Hasan

2022

Superconductors

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The disappearing of electrical resistance below the critical temperature (Tc) is known as superconductivity discovered by Kamerlingh Onnes in 1911. Superconductors are consisted of two categories namely type I and type II also called soft and hard superconductors, respectively. Type I superconductors obey the Meissner effect while type II superconductors do not. The superconducting compounds are divided into three categories, (i) Metal based systems, (ii) Copper oxides (cuprates) and (iii) Iron based superconductors (IBSC). Metal-based superconductors are combination of cubic crystal configuration named the A15 structure. Initial IBSC was revealed in 2006 for LaFePO; nevertheless, Tc stayed as small as ~4 K. High-Tc compounds were then expressed for LaFeAsO1–xFx by means of Tc = 26 K in 2008. Superconductors have considerable positions in the lower temperature magnet applications such as MRI, nuclear magnetic resonance and superconducting quantum interference.

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Superconducting Properties of Welded Three Top‐Seeded YBa₂Cu₃O_7−x Produced with NdBCO/YBCO/MgO Thin‐Film Seed

Batur,

Duman,

Çakir

et al. 2024

Physica Status Solidi (b)

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This study investigates hollow single‐crystal top‐seeded melt growth (TSMG) YBa2Cu3O7−x (YBCO or Y123) samples welded with Ag‐added TSMG YBCO solder materials produced using NdBCO/YBCO/MgO thin‐film seeds. Three main samples and one solder material are produced by the TSMG method. In order to increase the dimensions of the bulk YBCO superconductor, two slices of the solder material and the main samples are stacked on top of each other with the c‐axis parallel and welded at 1030 °C. X‐ray diffraction patterns, polarized optical photographs, and SEM micrographs are taken to determine the structural properties of the samples. A preferential orientation in the c‐axis is observed with a good connection. Low‐temperature resistance and magnetization measurements are made for the specimens taken from the welding region. A sharp superconducting transition occurs at 0 T around 93 K for welding regions of W‐ab and W‐bc specimens. The critical current densities (Jc) are high as in the main samples. At the same time, the Jc values at 77 K and 0 T are found as 1.54 × 104, 1.98 × 104, 2.21 × 104, 2.31 × 104, and 2.36 × 104 A cm−2 for the W‐a, W‐ab, W‐b, W‐bc, and W‐c specimens, respectively. The single‐grain feature is not impaired; thus, the absence of additional grain boundaries facilitates the current passage.

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Effect of seed orientations on the crystallization characteristics and the magnetic levitation properties of single domain YBCO bulk superconductors

Cited by 5 publications

References 34 publications

A Novel Top Seeding Method for Reliable Growth of Single-Grain YBCO Bulk Superconductor with High Levitation Property above 26 N/cm²

A Novel Top Seeding Method for Reliable Growth of Single-Grain YBCO Bulk Superconductor with High Levitation Property above 26 N/cm²

Properties and Types of Superconductors

Superconducting Properties of Welded Three Top‐Seeded YBa₂Cu₃O_7−x Produced with NdBCO/YBCO/MgO Thin‐Film Seed

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Effect of seed orientations on the crystallization characteristics and the magnetic levitation properties of single domain YBCO bulk superconductors

Cited by 5 publications

References 34 publications

A Novel Top Seeding Method for Reliable Growth of Single-Grain YBCO Bulk Superconductor with High Levitation Property above 26 N/cm2

A Novel Top Seeding Method for Reliable Growth of Single-Grain YBCO Bulk Superconductor with High Levitation Property above 26 N/cm2

Properties and Types of Superconductors

Superconducting Properties of Welded Three Top‐Seeded YBa2Cu3O7−x Produced with NdBCO/YBCO/MgO Thin‐Film Seed

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Product

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About

A Novel Top Seeding Method for Reliable Growth of Single-Grain YBCO Bulk Superconductor with High Levitation Property above 26 N/cm²

A Novel Top Seeding Method for Reliable Growth of Single-Grain YBCO Bulk Superconductor with High Levitation Property above 26 N/cm²

Superconducting Properties of Welded Three Top‐Seeded YBa₂Cu₃O_7−x Produced with NdBCO/YBCO/MgO Thin‐Film Seed