Chao Zhou scite author profile

For high current superconductors in high magnet fields with currents in the order of 50 kA, single ReBCO coated conductors must be assembled in a cable. The geometry of such a cable is mostly such that combined torsion, axial and transverse loading states are anticipated in the tapes and tape joints. The resulting strain distribution, caused by different thermal contraction and electromagnetic forces, will affect the critical current of the tapes. Tape performance when subjected to torsion, tensile and transverse loading is the key to understanding limitations for the composite cable performance. The individual tape material components can be deformed, not only elastically but also plastically under these loads. A set of experimental setups, as well as a convenient and accurate method of stress-strain state modeling based on the finite element method have been developed. Systematic measurements on single ReBCO tapes are carried out combining axial tension and torsion as well as transverse loading. Then the behavior of a single tape subjected to the various applied loads is simulated in the model. This paper presents the results of experimental tests and detailed FE modeling of the 3D stress-strain state in a single ReBCO tape under different loads, taking into account the temperature dependence and the elastic-plastic properties of the tape materials, starting from the initial tape processing conditions during its manufacture up to magnet operating conditions. Furthermore a comparison of the simulations with experiments is presented with special attention for the critical force, the threshold where the tape performance becomes irreversibly degraded. We verified the influence of tape surface profile non-uniformity and copper stabilizer thickness on the critical force. The FE models appear to describe the tape experiments adequately and can thus be used as a solid basis for optimization of various cabling concepts.

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The effect of axial and transverse loading on the transport properties of ITER Nb₃Sn strands

Nijhuis

Meerdervoort

Krooshoop

et al. 2013

Supercond. Sci. Technol.

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The differences in thermal contraction of the composite materials in a cable in conduit conductor (CICC) for the International Thermonuclear Experimental Reactor (ITER), in combination with electromagnetic charging, cause axial, transverse contact and bending strains in the Nb 3 Sn filaments. These local loads cause distributed strain alterations, reducing the superconducting transport properties. The sensitivity of ITER strands to different strain loads is experimentally explored with dedicated probes. The starting point of the characterization is measurement of the critical current under axial compressive and tensile strain, determining the strain sensitivity and the irreversibility limit corresponding to the initiation of cracks in the Nb 3 Sn filaments for axial strain. The influence of spatial periodic bending and contact load is evaluated by using a wavelength of 5 mm. The strand axial tensile stress-strain characteristic is measured for comparison of the axial stiffness of the strands. Cyclic loading is applied for transverse loads following the evolution of the critical current, n-value and deformation. This involves a component representing a permanent (plastic) change and as well as a factor revealing reversible (elastic) behavior as a function of the applied load.The experimental results enable discrimination in performance reduction per specific load type and per strand type, which is in general different for each manufacturer involved. Metallographic filament fracture studies are compared to electromagnetic and mechanical load test results. A detailed multifilament strand model is applied to analyze the quantitative impact of strain sensitivity, intrastrand resistances and filament crack density on the performance reduction of strands and full-size ITER CICCs. Although a full-size conductor test is used for qualification of a strand manufacturer, the results presented here are part of the ITER strand verification program. In this paper, we present an overview of the results and comparisons.

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Ozone Storage Effects on Anthocyanin Content and Fungal Growth in Blackberries

Barth

Zhou

Mercier

et al. 1995

Journal of Food Science

151

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Ozone exposure was assessed for storage of thomless blackberries which are prone to fungal decay. Blackberries were harvested and stored for 12 days at 2'C in 0.0, 0.1, and 0.3 ppm ozone. Berries were evaluated for ftmgal decay, anthocyanins, color and peroxidase (POD) activity. Ozone storage suppressed fungal development for 12 days, while 20% of control fruits showed decay. The main mold was Botrytis cinereu.Ozone storage did not cause observable injury or defects. By 12 days, anthocyanin content of juice was similar to initial levels for all treatments. Surface color was better retained in 0.1 and 0.3 ppm-stored berries by 5 days and in 0.3 ppm berries by 12 days, by hue angle values. POD was greater in controls and 0.1 ppm samples, and was lowest in 0.3 ppm fruits by 12 days. Ozone storage resulted in market quality extension.

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Determination of Optimum Conditions for Supercritical Fluid Extraction of Carotenoids from Carrot (Daucus carota L.) Tissue

Barth¹,

Zhou²,

Kute³

et al. 1995

J. Agric. Food Chem.

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Progress of Jinping Underground laboratory for Nuclear Astrophysics (JUNA)

Liu

et al. 2016

EPJ Web of Conferences

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Abstract. Jinping Underground lab for Nuclear Astrophysics (JUNA) will take the advantage of the ultralow background in Jinping underground lab, high current accelerator based on an ECR source and highly sensitive detector to study directly a number of crucial reactions to the hydrostatic stellar evolution for the first time at their relevant stellar energies. In its first phase, JUNA aims at the direct measurements of 25 Mg(p,γ) 26 Al, 19 F(p,α) 16 O, 13 C(α,n) 16 O and 12 C(α,γ) 16 O. The experimental setup, which include the accelerator system with high stability and high intensity, the detector system, and the shielding material with low background, will be established during the above research. The current progress of JUNA will be given. Article available at

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Chao Zhou

Experiments and FE modeling of stress–strain state in ReBCO tape under tensile, torsional and transverse load

The effect of axial and transverse loading on the transport properties of ITER Nb₃Sn strands

Ozone Storage Effects on Anthocyanin Content and Fungal Growth in Blackberries

Determination of Optimum Conditions for Supercritical Fluid Extraction of Carotenoids from Carrot (Daucus carota L.) Tissue

Progress of Jinping Underground laboratory for Nuclear Astrophysics (JUNA)

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Chao Zhou

Experiments and FE modeling of stress–strain state in ReBCO tape under tensile, torsional and transverse load

The effect of axial and transverse loading on the transport properties of ITER Nb3Sn strands

Ozone Storage Effects on Anthocyanin Content and Fungal Growth in Blackberries

Determination of Optimum Conditions for Supercritical Fluid Extraction of Carotenoids from Carrot (Daucus carota L.) Tissue

Progress of Jinping Underground laboratory for Nuclear Astrophysics (JUNA)

Contact Info

Product

Resources

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The effect of axial and transverse loading on the transport properties of ITER Nb₃Sn strands