@article{
 title = {Self-Consistent Modeling of the I c of HTS Devices : How Accurate do Models Really Need to Be ?},
 type = {article},
 year = {2014},
 identifiers = {[object Object]},
 keywords = {Angular Jc(B) dependence,critical current,numerical simulations,self-field effects.},
 pages = {8000508},
 volume = {24},
 id = {9d04b65b-8400-382c-95da-c5a680e8ebfd},
 created = {2015-11-25T10:33:35.000Z},
 file_attached = {false},
 profile_id = {9495636f-d73f-34d2-b6ff-fe5dfa3a8841},
 group_id = {7a3bc460-f939-3cef-a7d0-3ac6b86952c3},
 last_modified = {2015-12-03T11:11:12.000Z},
 read = {false},
 starred = {false},
 authored = {false},
 confirmed = {true},
 hidden = {false},
 citation_key = {Grilli2014c},
 abstract = {Numericalmodels for computing the effective critical current of devices made of high-temperature superconducting tapes require the knowledge of the Jc(B, θ) dependence, i.e., of the way the critical current density Jc depends on the magnetic flux density B and its orientation θ with respect to the tape. In this paper, we present a numerical model based on the critical state with angular field dependence of Jc to extract the Jc(B, θ) relation from experimental data. The model takes into account the self-field created by the tape, which gives an important contribu- tion when the field applied in the experiments is low. The same model can be also used to compute the effective critical current of devices composed of electromagnetically interacting tapes. In this paper, we consider three examples: two differently current-rated Roebel cables composed of ten strands from REBCO coated con- ductors and a power cable prototype composed of 22 Bi-2223 tapes. The critical currents computed with the numerical model show good agreement with the measured ones. The simulations reveal also that several parameter sets in Jc(B, θ) give an equally good representation of the experimental characterization of the tapes and that the measured Ic values of cables are subjected to the influence of experimental conditions, such as Ic degra- dation due to the manufacturing and assembling process and nonuniformity of the tape properties. These two aspects make the determination of a very precise Jc(B, θ) expression probably unnecessary, as long as that expression is able to reproduce the main features of the observed angular dependence. The easiness of use of this model, which can be straightforwardly implemented in finite-element programs able to solve static electromagnetic problems, is very attractive both for researchers and device man- ufactures who want to characterize superconducting tapes and calculate the effective critical current of superconducting devices.},
 bibtype = {article},
 author = {Grilli, Francesco and Sirois, Frédéric and Member, Senior and Zermeño, Victor M R and Vojenčiak, Michal},
 journal = {IEEE Transactions on Applied Superconductivity},
 number = {6}
}

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In this paper, we present a numerical model based on the critical state with angular field dependence of Jc to extract the Jc(B, θ) relation from experimental data. The model takes into account the self-field created by the tape, which gives an important contribu- tion when the field applied in the experiments is low. The same model can be also used to compute the effective critical current of devices composed of electromagnetically interacting tapes. In this paper, we consider three examples: two differently current-rated Roebel cables composed of ten strands from REBCO coated con- ductors and a power cable prototype composed of 22 Bi-2223 tapes. The critical currents computed with the numerical model show good agreement with the measured ones. The simulations reveal also that several parameter sets in Jc(B, θ) give an equally good representation of the experimental characterization of the tapes and that the measured Ic values of cables are subjected to the influence of experimental conditions, such as Ic degra- dation due to the manufacturing and assembling process and nonuniformity of the tape properties. These two aspects make the determination of a very precise Jc(B, θ) expression probably unnecessary, as long as that expression is able to reproduce the main features of the observed angular dependence. The easiness of use of this model, which can be straightforwardly implemented in finite-element programs able to solve static electromagnetic problems, is very attractive both for researchers and device man- ufactures who want to characterize superconducting tapes and calculate the effective critical current of superconducting devices.","bibtype":"article","author":"Grilli, Francesco and Sirois, Frédéric and Member, Senior and Zermeño, Victor M R and Vojenčiak, Michal","journal":"IEEE Transactions on Applied Superconductivity","number":"6","bibtex":"@article{\n title = {Self-Consistent Modeling of the I c of HTS Devices : How Accurate do Models Really Need to Be ?},\n type = {article},\n year = {2014},\n identifiers = {[object Object]},\n keywords = {Angular Jc(B) dependence,critical current,numerical simulations,self-field effects.},\n pages = {8000508},\n volume = {24},\n id = {9d04b65b-8400-382c-95da-c5a680e8ebfd},\n created = {2015-11-25T10:33:35.000Z},\n file_attached = {false},\n profile_id = {9495636f-d73f-34d2-b6ff-fe5dfa3a8841},\n group_id = {7a3bc460-f939-3cef-a7d0-3ac6b86952c3},\n last_modified = {2015-12-03T11:11:12.000Z},\n read = {false},\n starred = {false},\n authored = {false},\n confirmed = {true},\n hidden = {false},\n citation_key = {Grilli2014c},\n abstract = {Numericalmodels for computing the effective critical current of devices made of high-temperature superconducting tapes require the knowledge of the Jc(B, θ) dependence, i.e., of the way the critical current density Jc depends on the magnetic flux density B and its orientation θ with respect to the tape. In this paper, we present a numerical model based on the critical state with angular field dependence of Jc to extract the Jc(B, θ) relation from experimental data. The model takes into account the self-field created by the tape, which gives an important contribu- tion when the field applied in the experiments is low. The same model can be also used to compute the effective critical current of devices composed of electromagnetically interacting tapes. In this paper, we consider three examples: two differently current-rated Roebel cables composed of ten strands from REBCO coated con- ductors and a power cable prototype composed of 22 Bi-2223 tapes. The critical currents computed with the numerical model show good agreement with the measured ones. The simulations reveal also that several parameter sets in Jc(B, θ) give an equally good representation of the experimental characterization of the tapes and that the measured Ic values of cables are subjected to the influence of experimental conditions, such as Ic degra- dation due to the manufacturing and assembling process and nonuniformity of the tape properties. These two aspects make the determination of a very precise Jc(B, θ) expression probably unnecessary, as long as that expression is able to reproduce the main features of the observed angular dependence. The easiness of use of this model, which can be straightforwardly implemented in finite-element programs able to solve static electromagnetic problems, is very attractive both for researchers and device man- ufactures who want to characterize superconducting tapes and calculate the effective critical current of superconducting devices.},\n bibtype = {article},\n author = {Grilli, Francesco and Sirois, Frédéric and Member, Senior and Zermeño, Victor M R and Vojenčiak, Michal},\n journal = {IEEE Transactions on Applied Superconductivity},\n number = {6}\n}","author_short":["Grilli, F.","Sirois, F.","Member, S.","Zermeño, V., M., R.","Vojenčiak, M."],"bibbaseid":"grilli-sirois-member-zermeo-vojeniak-selfconsistentmodelingoftheicofhtsdeviceshowaccuratedomodelsreallyneedtobe-2014","role":"author","urls":{},"keyword":["Angular Jc(B) dependence","critical current","numerical simulations","self-field effects."],"downloads":0},"search_terms":["self","consistent","modeling","hts","devices","accurate","models","really","need","grilli","sirois","member","zermeño","vojenčiak"],"keywords":["angular jc(b) dependence","critical current","numerical simulations","self-field effects."],"authorIDs":[]}