M. Wang
Shaanxi Normal University
6 Papers
53 Citations
M. Wang is an academic researcher from Shaanxi Normal University. The author has contributed to research in topics: Levitation & Microstructure. The author has an hindex of 4, co-authored 6 publications.
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Papers
A new 3D levitation force measuring device for REBCO bulk superconductors
TL;DR: In this paper, a 3D levitation force measuring device for ReBa2Cu3O7−x (REBCO) bulk superconductors has been designed and constructed, and three pull pressure load cells are orthogonally set on a fixing bracket to test the interaction force between a bulk superconductor and a magnet in three dimensions.
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The Influence of Y 2 Ba 4 CuNbO x Nanoparticle Addition on the Superconducting Properties of Single Domain YBCO Bulks
TL;DR: In this paper, single-domain YBCO superconductors with different additions of nanometer Y 2Ba 4CuNbO x NdBCO (YNb2411), based on the solid phase of [(100-x)Y 2BaCuO 5(Y211) + x YNB2411] (x = 3, 5, 7, 10, 12, 12) and liquid phase of (Y211 + 9 BaCuO 2 + 6CuO), were successfully fabricated by a modified top seeded infiltration and growth process (TSIG),
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Effect of Y 2 Ba 4 CuBiO y Nanoparticles Doping on the Levitation Force of Single-Domain YBCO Bulk Superconductor by Top-Seeded Infiltration Process
TL;DR: In this paper, a single-domain YBCO bulk superconductors with different ratio of nanoscale Y2Ba4CuBiO (YBi2411) inclusions have been fabricated by TSIG process.
13
A Low-Cost Fabrication Technique for the Growth of Single-Domain GdBCO Bulk Superconductor from Raw Metal Oxides
TL;DR: In this paper, the authors reported the successful growth of single-domain GdBCO bulk superconductors by the top-seeded metallic oxide melt growth (TS-MOMG) process.
1
Patent
Method for preparing high-performance single-domain GdBCO superconduction block material by concentration gradient-based solid-phase source
M. Wang,Wang Xiaomei,Gao Ping,Yang Wanmin +3 more
- 17 Jul 2018
TL;DR: In this article, a method for preparing a high-performance single-domain GdBCO superconduction block material by a concentration gradient-based solid-phase source is presented. But the method is not suitable for high-temperature applications.