FORZAN, MICHELE
 Distribuzione geografica
Continente #
NA - Nord America 3.596
EU - Europa 2.897
AS - Asia 607
SA - Sud America 16
Continente sconosciuto - Info sul continente non disponibili 12
Totale 7.128
Nazione #
US - Stati Uniti d'America 3.589
IT - Italia 1.765
UA - Ucraina 493
SE - Svezia 210
CN - Cina 195
VN - Vietnam 175
TR - Turchia 169
IE - Irlanda 147
DE - Germania 110
RU - Federazione Russa 73
SG - Singapore 59
FR - Francia 55
GB - Regno Unito 30
BR - Brasile 12
EU - Europa 12
FI - Finlandia 6
BE - Belgio 3
CA - Canada 3
CO - Colombia 2
ES - Italia 2
JP - Giappone 2
MX - Messico 2
TW - Taiwan 2
AR - Argentina 1
AT - Austria 1
GE - Georgia 1
HK - Hong Kong 1
HN - Honduras 1
IQ - Iraq 1
IR - Iran 1
LT - Lituania 1
NI - Nicaragua 1
NL - Olanda 1
PK - Pakistan 1
VE - Venezuela 1
Totale 7.128
Città #
Milan 1.400
Fairfield 579
Jacksonville 410
Dearborn 289
Woodbridge 281
Wilmington 238
Ashburn 236
Seattle 235
Cambridge 206
Houston 204
Izmir 167
Princeton 164
Chandler 157
Dublin 147
Boardman 99
Nyköping 97
Rome 88
Dong Ket 84
Ann Arbor 83
Beijing 59
Singapore 55
Ogden 38
San Diego 35
Nanjing 25
Hefei 23
Santa Clara 18
Kunming 14
New York 13
Chicago 11
Jinan 10
London 10
Guangzhou 6
Norwalk 6
Frankfurt am Main 5
Fuzhou 5
Helsinki 5
Verona 5
Chiswick 4
Nanchang 4
Padova 4
Shenyang 4
Xian 4
Brussels 3
Hebei 3
Kilburn 3
Munich 3
Nuremberg 3
Strasbourg 3
Tianjin 3
Zhengzhou 3
Acton 2
Araucária 2
Baotou 2
Berlin 2
Chaoyang 2
Council Bluffs 2
Fayetteville 2
Hounslow 2
Kaohsiung 2
New Bedfont 2
Quzhou 2
Taizhou 2
Tappahannock 2
Tokyo 2
Toronto 2
Valencia 2
Adamantina 1
Belo Horizonte 1
Brasília 1
Buenos Aires 1
Cariacica 1
Caruaru 1
Carvin 1
Cascavel 1
Cascina 1
Catu 1
Central 1
Changchun 1
Changsha 1
Chengdu 1
Chongqing 1
Como 1
Corbetta 1
Erbil 1
Falls Church 1
Guadalupe 1
Guarulhos 1
Hangzhou 1
Istanbul 1
Karachi 1
Lappeenranta 1
Los Angeles 1
Managua 1
Mexico City 1
Mountain View 1
Nanning 1
Osmaniye 1
Ottawa 1
Pasto 1
Raleigh 1
Totale 5.617
Nome #
Multi-objective design of a magnetic fluid hyperthermia device 152
A 3D numerical FEM model for the simulation of induction welding of tubes 146
A 3D numerical fem model for the simulation of induction welding of tubes 143
A BENCHMARK PROBLEM OF INDUCTION HEATING ANALYSIS 133
3D FE analysis and control of a submerged arc electric furnace 128
3D FE analysis and control of a submerged arc electric furnace 126
Self-adaptive NGSA algorithm and optimal design of inductors for magneto-fluid hyperthermia 125
A Translational Coupled Electromagnetic and Thermal Innovative Model for Induction Welding of Tubes 122
A benchmark problem of induction heating analysis 119
Analysis of the effect of not-parallel needles in electroporation 119
Design concepts of induction mass heating technology based on multiple-criteria optimization 118
A Paretian Approach to Optimal Design With Uncertainties: Application in Induction Heating 116
Design concepts of induction mass heating technology based on multiple-criteria optimization 114
A Translational Coupled Electromagnetic and Thermal Innovative Model for Induction Welding of Tubes 113
Optimal design of an inductor for MFH: From models to laboratory-scale prototype 112
Migration-corrected NSGA-II for improving multiobjective design optimization in electromagnetics 111
A numerical evaluation of electromagnetic fields exposure on real human body models until 100 kHz 110
A numerical evaluation on Electromagnetic fields exposure on real human body models until 100 kHz 109
Electrical resistance in inhomogeneous samples during electroporation 108
Multi-objective optimisation of induction heating processes: methods of the problem solution and examples based on benchmark model 108
Three-criteria numerical optimisation as a base for designing induction mass heating 107
Histological Characteristics of Soft Tissue Sarcomas Correlated to Electrical Resistance 106
Electroporation of inhomogeneous samples: From conduction field to equivalent resistance 106
Handling sensitivity in multiobjective design optimization of MFH inductors 106
Prototype of a Flexible Grid Electrode to Treat Large Surfaces by Means of Electrochemotherapy 105
A paretian approach to optimal design with uncertainties: application in induction heating 105
Effect of Electrode Distance in Grid Electrode: Numerical Models and In Vitro Tests 105
Electrical Resistance of Tumor Tissue during Electroporation: An Ex-Vivo Study on Human Lipomatous Tumors 104
Optimal design of inductors for magnetic-fluid hyperthermia by means of migration-assisted NSGA 103
Microscopic histological characteristics of soft tissue sarcomas: analysis of tissue features and electrical resistance 102
Multi-objective optimisation of induction heaters design based on numerical coupled field analysis 102
Multi-objective design of a power inductor: a benchmark problem of inverse induction heating 100
Electric field computation and measurements in the electroporation of inhomogeneous samples 100
Migration NSGA: method to improve a non-elitist searching of Pareto front, with application in magnetics 99
Sensitivity-based optimal shape design of induction-heating devices 98
Electrical resistance of human soft tissue sarcomas: an ex vivo study on surgical specimens 98
Multiobjective design optimization of an induction heating device: A benchmark problem 98
Optimal inductor design for nanofluid heating characterisation 95
Optimal design of inductors for magneticfluid hyperthermia by means of migrationassisted NSGA 95
Improved solution to a multi-objective benchmark problem of inverse induction heating 93
HES-16 International Conference on heating by electromagnetic sources 92
Migration-corrected NSGA-II for improving multiobjective design optimization in electromagnetics 89
New needle-grid electrodes for Electrochemotherapy 87
Evaluation of the exposure to magnetic field generated by welding equipment with reference to induced current density 85
Comparison between different synthetic methods in the production of magnetic Fe3O4 nanoparticles 81
Synthesis, Characterization and Application of Iron Oxide Magnetic Nanoparticles for Magneto Fluid Hyperthermia Therapy6th European Conference of the International Federation for Medical and Biological Engineering 81
Physical characterization of high rate heating magnetic nanoparticles for MFH 78
New magnetic nanodevices for Magneto Fluid Hyperthermia applications 76
Switch of design variables: a cost-effective identification of the Pareto front in inverse magnetics 74
UNCERTAINTY-TOLERANT MAGNETIC FIELD SYNTHESIS 74
ANALISI AGLI ELEMENTI FINITI 3D E CONTROLLO DI UN FORNO ELETTRICO AD ARCO SOMMERSO 73
Iron oxide magnetic nanoparticles included in PLGA nanoparticles and liposomes for MFH applications 73
HES-13 International Conference on heating by electromagnetic sources 71
Morphological and thermal characterization of magnetic nanoflowers 71
Simple 3D fem models for evaluation of EM exposure produced by welding equipments 71
Simple 3D fem models for evaluation of EM exposure produced by welding equipments 69
3D model for treatment planning in electrochemotherapy 69
LEP-Laboratory for Electroheat of Padua University 68
SELF-ADAPTIVE NSGA ALGORITHM FOR THE OPTIMAL DESIGN OF ELECTROMAGNETIC DEVICES FOR MFH 68
Evaluation of the exposure to magnetic field generated by welding equipment with reference to induced current density 66
COMPARISON OF MAGNETIC AND HEATING PROPERTIES OF IRON OXIDE NANOPARTICLES FOR HYPERTHERMIA 66
Optimal Inductor Design for Nanofluid Magnetic Characterisation 63
Elettrochemioterapia clinica e computazionale 63
Evaluation of the Electroporation Efficiency of a Grid Electrode for Electrochemotherapy: From Numerical Model to In Vitro Tests 61
Magneto-Fluid Hyperthermia: A Multidisciplinar Approach. Design of an Experimental Set Up 60
Parametric vs non-parametric optimal design of induction heating devices 60
Multi-objective optimization for advanced design of induction through heaters 60
PROGETTAZIONE OTTIMA DI UN INDUTTORE PER RISCALDAMENTO A INDUZIONE: APPROCCIO MULTIOBIETTIVO E MULTIFISICO 59
Electrical resistivity of a billet in a longitudinal levitator: An identification method 58
Metal oxide magnetic nanoparticles for hyperthermia therapy 58
Iron oxide magnetic nanoparticles for magnetic fluid hyperthermia therapy: synthesis and characterization 58
Pulsed electric field applied to biological tissue: measurement set-up to evaluate electrical resistivity 57
Multi-objective optimization as an innovative method to design induction heat 56
Numerical FEM models for the evaluation of EM fields exposure near welding machines 56
SELF-adaptive Migration-NSGA algorithm: An application in uncertainty-tolerant magnetic field synthesis for MFH inductor design 56
Ipertermia magneto-fluida: un approccio multidisciplinare 55
Multi-physics and multi-objective design of a benchmark device: A problem of inverse induction heating 55
Modele polowe grzania indukcyjnego w zastosowaniach przemyslowych 55
Optimal design of a pancake inductor for induction heating: a multiphysics and multiobjective approach 54
Parametric vs non-parametric optimal design of induction heating devices 54
Ferrofluids made of magnetic nanoflowers: effect of the carrier fluid on magnetic and heating properties 38
Identification of the electrical resistivity of a billet in a longitudinal levitator: an inverse problem approach 35
Totale 7.212
Categoria #
all - tutte 29.584
article - articoli 0
book - libri 0
conference - conferenze 0
curatela - curatele 0
other - altro 0
patent - brevetti 0
selected - selezionate 0
volume - volumi 0
Totale 29.584


Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2019/2020631 0 0 0 0 0 0 0 227 117 146 30 111
2020/20211.098 13 114 16 154 32 127 42 103 190 37 106 164
2021/2022589 87 63 11 14 16 32 7 32 51 136 41 99
2022/2023620 92 3 18 47 59 160 0 76 93 37 15 20
2023/20241.973 353 400 345 373 392 38 4 9 51 7 0 1
2024/2025318 1 2 175 2 13 77 20 28 0 0 0 0
Totale 7.212