简介:42-voltarchitectureonpowdermetallurgy-opportunities;AdesignmethodforsuperconductingMPdmagnetswithferromagneticmaterial;Afar-fieldapproximationforthefast-multipolemethodappliedtothecombinedfieldintegralequation;AflexibleandlowcostdesignforflybackAC/DCconverterwithharmoniccurrentcorrection;AgeneralizedEpsteintestmethodforthecomputationofcorelossesininductionmotors;ALearningObjectsApproachtoTeachingProgramming;
简介:(Ni,Fe,Co)-basednanocrystallinesoftmagnetswithnear-zeromagnetostriction;AccountingforResistivityandPermittivityinHighFrequencyPermeabilityMeasurements.ApplicationtoMnZnFerrites.;Biaxialmagnetometersensor;Biaxialmagnetometricsensor;DevelopmentofhighmagneticperformanceP/Msoftmagneticmaterial;FlexibleMagnetics:MagneticLithographyandFabricationofMagneticMasksonThinPlasticSubstrates;FormationandsoftmagneticpropertiesofFe-B-Si-Zrbulkglassyalloyswithhighsaturationmagnetizationabove1.5T;
简介:IdentifyingthePreisachfunctionforsoftmagneticmaterials,Influenceofgeometricalparametersofalayeredpowdercompositeonitsmagneticproperties,MagneticLithographyUsingFlexibleMagneticMasks:ApplicationstoServowriting,MultilayeredFeCo/FeCo-Osoftmagneticfilmsforrecordingapplications
简介:AWaveAbsorberforDSRCUsingResistiveFilmandMagneticMaterial,Activecurrenttransformercircuitsforsensingcurrentswithinmulti-kilowattpowerconvertersequippedwithactivepowerfactorcorrection,AnapplicationofSchur'slemmatoelasticdielectrics,Analysesandpreliminarytestsofabalsasandwichcorewithimprovedshearproperties,Behaviorofair-oxidationofthenucleargrade2-dimentionalcarbonfiberreinforcedcarboncomposite-ontheinterlayershearstrength,BoardLevelReliabilityEvaluationofRFPAModuleVias,Carbonfoam:anext-generationstructuralmaterial。
简介:Amagneto-hydrodynamicmicrofluidicnetwork,AmegahertzswitchingDC/DCconverterusingFeBNthinfilminductor,AMethodforOptimisingtheWeightandResponseofBrush-TypeWound-FieldDirectCurrentMotors,AnovelaccuratePEEC-based3DmodelingtechniqueforRFdevicesofarbitraryconductor-magnetstructure
简介:摘要:井用潜水泵是现代农业和城市供水系统中的关键设备。本文深入探讨了PPO+PA+玻纤合金材料在井用潜水泵中的应用效果。PPO+PA+玻纤合金材料因其优秀的耐腐蚀性、高强度和良好的热稳定性,被广泛关注并应用于潜水泵的制造。文章首先介绍了井用潜水泵的结构与工作原理,然后详细阐述了PPO+PA+玻纤合金材料的特性,包括其优异的机械性能、电绝缘性和化学稳定性。接着,通过实验研究和对比分析,展示了该材料在泵体、叶轮等关键部件的应用,显著提高了泵的耐磨性、耐热性和使用寿命。此外,还探讨了材料选择对泵效率和能耗的影响,以及在不同工况下的适应性。结果表明,采用PPO+PA+玻纤合金材料的井用潜水泵在可靠性和经济性方面均有显著提升。综上,本文的研究为优化井用潜水泵的结构设计和材料选择提供了理论依据,对提升泵设备的性能和使用寿命具有实际指导意义。