Hongxu Tai scite author profile

We have measured the resistance of superconducting n YBa 2 Cu 3 O y: AgO (n=2,3,4, and 5) composites above 77 K for magnetic field up to 20 T. The data reveal that the resistance is zero even at 80 K and 20 T. The temperature dependence of the critical field near T c (91.6 K) is very strong, and critical fields at 0 K are thus expected to be very high. Our results of scanning electron microscopy and polarized light microscopy have shown that the presence of silver results in the growth of very large grains (~0.5 mm) with silver dispersed in the grains, giving rise to strong pinning and, hence, large superconducting critical current densities.

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The effect of Co2+, Cu2+ element ratio on the microwave absorption properties of CoxCu1-xFe2O4/RGO composites

Ding

Chen

Tai

et al. 2021

Materials Letters

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Some Physical Properties of Suspendable Superconducting 123-Ag Composites

Huang¹,

Tai²,

Yao

et al. 1989

MRS Proc.

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We have measured the M-H hysteresis loops of n YBa2Cu3Oy: Ag (n = 3,5, and 7), and 3RBa2Cu3Oy:Ag (R = rare earth) as a function of temperature. We have found that the residual magnetization and, hence, pinning, is strong and is independent of n and R, but dependent on the metallurgy. The giant creep rates have been measured and are greater than those of pure 123 samples. Scanning electron microscopy and polarized light microscopy have shown that the presence of silver gives rise to the growth of large grains (~1 mm) in the 123-Ag samples. The field dependence of the critical current density is not strong at high field. We have also measured the resistance in field up to 200 kOe. The resistance remains zero even at 80 K and 200 kOe. The field dependence of the superconducting transition is discussed in terms of phase slippage.

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Two Birds with One Stone: Preparation of 4, 4-Diaminodiphenylmethane Functionalized GO@SiO2 with Mechanical Reinforcement and UV Shielding Properties and Its Application in Thermoplastic Polyurethane

et al. 2021

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This study prepared 4,4-diaminodiphenylmethane (DDM)-functionalized graphene oxide (GO)@silica dioxide (SiO2) nano-composites through amidation reaction and low-temperature precipitation. The resulting modified GO, that was DDM−GO@SiO2. The study found that DDM−GO@SiO2 showed good dispersion and compatibility with thermoplastic polyurethane (TPU) substrates. Compared with pure TPU, the tensile strength of the TPU composites increased by 41% to 94.6 MPa at only 0.5 wt% DDM−GO@SiO2. In addition, even when a small amount of DDM−GO@SiO2 was added, the UV absorption of TPU composites increased significantly, TPU composites can achieve a UV shielding efficiency of 95.21% in the UV-A region. These results show that this type of material holds great promise for the preparation of functional coatings and film materials with high strength and weather resistance.

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Hongxu Tai

Structural characterization and microwave absorbing performance of CuFe2O4/RGO composites

HIGH-FIELD AND MICROSTRUCTURE STUDIES OF SUPERCONDUCTING nYBa₂Cu₃O_y:AgO COMPOSITES

The effect of Co2+, Cu2+ element ratio on the microwave absorption properties of CoxCu1-xFe2O4/RGO composites

Some Physical Properties of Suspendable Superconducting 123-Ag Composites

Two Birds with One Stone: Preparation of 4, 4-Diaminodiphenylmethane Functionalized GO@SiO2 with Mechanical Reinforcement and UV Shielding Properties and Its Application in Thermoplastic Polyurethane

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Hongxu Tai

Structural characterization and microwave absorbing performance of CuFe2O4/RGO composites

HIGH-FIELD AND MICROSTRUCTURE STUDIES OF SUPERCONDUCTING nYBa2Cu3Oy:AgO COMPOSITES

The effect of Co2+, Cu2+ element ratio on the microwave absorption properties of CoxCu1-xFe2O4/RGO composites

Some Physical Properties of Suspendable Superconducting 123-Ag Composites

Two Birds with One Stone: Preparation of 4, 4-Diaminodiphenylmethane Functionalized GO@SiO2 with Mechanical Reinforcement and UV Shielding Properties and Its Application in Thermoplastic Polyurethane

Contact Info

Product

Resources

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HIGH-FIELD AND MICROSTRUCTURE STUDIES OF SUPERCONDUCTING nYBa₂Cu₃O_y:AgO COMPOSITES