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Diagnosing ratio of electron density to collision frequency of plasma surrounding scaled model in a shock tube using low-frequency alternating magnetic field phase shift
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作者 吴明兴 谢楷 +3 位作者 刘艳 徐晗 张宝 田得阳 《Chinese Physics B》 SCIE EI CAS CSCD 2024年第5期519-530,共12页
A non-contact low-frequency(LF)method of diagnosing the plasma surrounding a scaled model in a shock tube is proposed.This method utilizes the phase shift occurring after the transmission of an LF alternating magnetic... A non-contact low-frequency(LF)method of diagnosing the plasma surrounding a scaled model in a shock tube is proposed.This method utilizes the phase shift occurring after the transmission of an LF alternating magnetic field through the plasma to directly measure the ratio of the plasma loop average electron density to collision frequency.An equivalent circuit model is used to analyze the relationship of the phase shift of the magnetic field component of LF electromagnetic waves with the plasma electron density and collision frequency.The applicable range of the LF method on a given plasma scale is analyzed.The upper diagnostic limit for the ratio of the electron density(unit:m^(-3))to collision frequency(unit:Hz)exceeds 1×10^(11),enabling an electron density to exceed 1×10^(20)m^(-3)and a collision frequency to be less than 1 GHz.In this work,the feasibility of using the LF phase shift to implement the plasma diagnosis is also assessed.Diagnosis experiments on shock tube equipment are conducted by using both the electrostatic probe method and LF method.By comparing the diagnostic results of the two methods,the inversion results are relatively consistent with each other,thereby preliminarily verifying the feasibility of the LF method.The ratio of the electron density to the collision frequency has a relatively uniform distribution during the plasma stabilization.The LF diagnostic path is a loop around the model,which is suitable for diagnosing the plasma that surrounds the model.Finally,the causes of diagnostic discrepancy between the two methods are analyzed.The proposed method provides a new avenue for diagnosing high-density enveloping plasma. 展开更多
关键词 low-frequency alternating magnetic field phase shift shock-tube plasma diagnosis electron density collision frequency
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Effects of alternating magnetic field on the corrosion rate and corrosion products of copper 被引量:10
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作者 GUO Bin ZHANG Peng +1 位作者 JIN Yongping CHENG Shukang 《Rare Metals》 SCIE EI CAS CSCD 2008年第3期324-328,共5页
The effects of alternating magnetic field on the corrosion morphologies, corrosion rate, and corrosion products of copper in 3.5% NaCl solution, sea water, and magnetized sea water were investigated using electrochemi... The effects of alternating magnetic field on the corrosion morphologies, corrosion rate, and corrosion products of copper in 3.5% NaCl solution, sea water, and magnetized sea water were investigated using electrochemical test, scanning electron microscopy/energy dispersive analysis system of X-ray (SEM/EDAX), and X-ray diffraction (XRD). The results show that the corrosion rate of copper in magnetized sea water is minimal. Moreover, the surface of the specimen in magnetized sea water is uniform and compact as compared with those in 3.5% NaCl solution and sea water. The corrosion products of copper in magnetized sea water are mainly Cu2O and CuCl2. However, the corrosion products in sea water are CuCl, Cu2Cl(OH)3, and FeCl3-6H2O. The electrochemical corrosion mechanisms of copper in the three media were also discussed. 展开更多
关键词 CORROSION sea water alternating magnetic field COPPER corrosion products
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Magnetic-mediated hyperthermia for cancer treatment:Research progress and clinical trials 被引量:2
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作者 赵凌云 刘嘉毅 +4 位作者 欧阳伟炜 李丹叶 李立 李利亚 唐劲天 《Chinese Physics B》 SCIE EI CAS CSCD 2013年第10期32-45,共14页
Research progress and frontiers of magnetic-mediated hyperthermia (MMH) are presented, along with clinical trials in Germany, the US, Japan, and China. Special attention is focused on MMH mediated by magnetic nanopa... Research progress and frontiers of magnetic-mediated hyperthermia (MMH) are presented, along with clinical trials in Germany, the US, Japan, and China. Special attention is focused on MMH mediated by magnetic nanoparticles, and multifunctional magnetic devices for cancer multimodality treatment are also introduced. 展开更多
关键词 aagnetic-mediated hyperthermia magnetic nanoparticles alternative magnetic field magneticLanoparticle hyperthermia THERMOCHEMOTHERAPY
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Kinetics modeling for austenite transformation in AISI 1045 steel during rapid heating under high frequency electromagnetic field 被引量:1
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作者 GAO Kai GUO Jian-zhong QIN Xun-peng 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第5期1543-1556,共14页
To investigate the effect of alternating magnetic field on austenite transformation process in the case of rapid heating,the austenite kinetics model of AISI 1045 steel was built for spot continual induction hardening... To investigate the effect of alternating magnetic field on austenite transformation process in the case of rapid heating,the austenite kinetics model of AISI 1045 steel was built for spot continual induction hardening(SCIH)process.The results shows that the effect of alternating magnetic field on austenite transformation fraction reaches the maximum(about 3%)when heating rate is the lowest.Relatively low magnetic flux density still has a certain effect on the austenite transformation process during the SCIH process.Concave surface structure can reduce the influence scope of alternating magnetic field on surface in all cases and the minimum influence scope appears when the feed path of inductor is longitudinal.Convex surface structure can minimize the influence scope of alternating magnetic field in depth when the feed path of inductor is longitudinal.The austenite distribution of transitional region on surface for horizontal movement is more uniform than that for longitudinal movement.The austenite distribution of transitional region in depth for longitudinal movement is more uniform than that for horizontal movement.The simulated results are consistent with the experimental results and the austenite transformation kinetics model developed for SCIH process is valid. 展开更多
关键词 alternating magnetic field AUSTENITE heating rate feed path CURVATURE AISI 1045 steel
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Determination of the heating efficiency of magnetotactic bacteria in alternating magnetic field 被引量:1
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作者 Tongwei ZHANG Huangtao XU +2 位作者 Jia LIU Yongxin PAN Changqian CAO 《Journal of Oceanology and Limnology》 SCIE CAS CSCD 2021年第6期2116-2126,共11页
Magnetotactic bacteria(MTB)intact cells have been applied in magnetic hyperthermia therapy of tumor,showing great efficiency in heating for tumor cell inhibition.However,the detailed magnetic hyperthermia properties a... Magnetotactic bacteria(MTB)intact cells have been applied in magnetic hyperthermia therapy of tumor,showing great efficiency in heating for tumor cell inhibition.However,the detailed magnetic hyperthermia properties and optimum heat production conditions of MTB cells are still poorly understood due to lack of standard measuring equipment.The specific absorption rate(SAR)of MTB cells is often measured by home-made equipment at a limited frequency and magnetic field amplitude.In this study,we have used a commercial standard system to implement a comprehensive study of the hyperthermic response of Magnetospirillum gryphiswaldense MSR-1 strain under 7 frequencies of 144-764 kHz,and 8 field amplitudes between 10 and 45 kA/m.The measurement results prove that the SAR of MTB cells increases with magnetic field frequency and amplitude within a certain range.In combination with the magnetic measurements,it is determined that the magnetic hyperthermia mechanism of MTB mainly follows the principle of hysteresis loss,and the heat efficiency of MTB cells in alternating magnetic field are mainly aff ected by three parameters of hysteresis loop,saturation magnetisation,saturation remanent magnetisation,and coercivity.Thus when we culture MTB in LA-2 medium containing sodium nitrate as source of nitrogen,the SAR of MTB LA-2 cells with magnetosomes arranged in chains can be as high as 4925.6 W/g(in this work,all SARs are calculated with iron mass)under 764 kHz and 30 kA/m,which is 7.5 times than current commercial magnetic particles within similar size range. 展开更多
关键词 magnetotactic bacteria(MTB) HYPERTHERMIA rock magnetism alternating magnetic field(AMF)
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Numerical simulation of applied electromagnetic field and electromagnetic force in all-position welding 被引量:1
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作者 牛雪娟 李亮玉 +1 位作者 姜旭东 岳建锋 《China Welding》 EI CAS 2013年第3期42-45,共4页
All-position welding is an important technology in energy sources, chemical, shipbuilding and other industries. When welding current is larger than 200 A, the molten metal tends to flow down due to the force of gravit... All-position welding is an important technology in energy sources, chemical, shipbuilding and other industries. When welding current is larger than 200 A, the molten metal tends to flow down due to the force of gravity. In order to "push" the molten metal into the weld, a new kind of U-frame excitation model, which could produce electromagnetic force to balance the gravity of the molten pool, was designed. The related parameters of the excitation model were simulated by Maxwell 3D, and the relationships between the parameters and the magnetic induction intensity were analyzed. Finally, the electromagnetic force in the molten pool was calculated, and the appropriate parameters of the U-frame excitation model were determined. The results of the simulation verify the feasibility of the all-position welding excitation model. 展开更多
关键词 all-position welding electromagnetic force high frequency alternating magnetic field
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Non-invasive electrical brain stimulation:from acute to late-stage treatment of central nervous system damage 被引量:4
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作者 Petra Henrich-Noack Elena G.Sergeeva Bernhard A.Sabel 《Neural Regeneration Research》 SCIE CAS CSCD 2017年第10期1590-1594,共5页
Non-invasive brain current stimulation(NIBS) is a promising and versatile tool for inducing neuroplasticity,protection and functional rehabilitation of damaged neuronal systems.It is technically simple,requires no s... Non-invasive brain current stimulation(NIBS) is a promising and versatile tool for inducing neuroplasticity,protection and functional rehabilitation of damaged neuronal systems.It is technically simple,requires no surgery,and has significant beneficial effects.However,there are various technical approaches for NIBS which influence neuronal networks in significantly different ways.Transcranial direct current stimulation(t DCS),alternating current stimulation(ACS) and repetitive transcranial magnetic stimulation(r TMS) all have been applied to modulate brain activity in animal experiments under normal and pathological conditions.Also clinical trials have shown that t DCS,r TMS and ACS induce significant behavioural effects and can – depending on the parameters chosen – enhance or decrease brain excitability and influence performance and learning as well as rehabilitation and protective mechanisms.The diverse phaenomena and partially opposing effects of NIBS are not yet fully understood and mechanisms of action need to be explored further in order to select appropriate parameters for a given task,such as current type and strength,timing,distribution of current densities and electrode position.In this review,we will discuss the various parameters which need to be considered when designing a NIBS protocol and will put them into context with the envisaged applications in experimental neurobiology and medicine such as vision restoration,motor rehabilitation and cognitive enhancement. 展开更多
关键词 non-invasive brain stimulation transcranial direct current stimulation transcranial magnetic stimulation transorbital alternating current stimulation stroke trauma neuroprotection restoration of function
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Effect of alternative magnetic field on the diffusion layer growth in Al/Zn couple
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作者 LIUXiaotao CUIJianzhong WUXiaoming GUOYanhui ZHANGJun 《Rare Metals》 SCIE EI CAS CSCD 2004年第3期246-249,共4页
The influence of an alternative magnetic field on the growth of the diffusionlayer in Al-Zn diffusion couple was studied. The thickness of the diffusion layer was examined. Theresults show that the alternative magneti... The influence of an alternative magnetic field on the growth of the diffusionlayer in Al-Zn diffusion couple was studied. The thickness of the diffusion layer was examined. Theresults show that the alternative magnetic field increases the thickness of the diffusion layer andthe effect increases with the intensity and frequency of the alternative magnetic field increasing. The growth of the diffusion layer obeys the parabolic rate law and the growth rateincreases with the application of the alternative magnetic field. This growth rate change ismanifested through a change in the frequency factor k_0 and not through a change in the activationenergy Q. The frequency factor k_0 for the diffusion layer growth with the alternative magneticfield is 5.03 cm^2/s and the one without the magnetic field is 3.84 cm^2/s. 展开更多
关键词 alternative magnetic field Al-Zn couple diffusion zone thickness parabolic rate law
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Influence of Alternative Magnetic Field on the Diffusion of Al and Mg
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作者 Xiaotao LIU, Jianzhong CUI, Yanhui GUO, Xiaoming WU and Jun ZHANGThe Key Laboratory of Electromagnetic Processing of Materials, Ministry of Education, Northeastern University, Shenyang 110004, China 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2004年第4期457-459,共3页
The influence of an alternative magnetic field on the diffusion of Al and Mg in AI-Mg diffusion couple is studied. The diffusion zone is composed of two intermediate phases, namelyβ and γ phase. Thickness of each in... The influence of an alternative magnetic field on the diffusion of Al and Mg in AI-Mg diffusion couple is studied. The diffusion zone is composed of two intermediate phases, namelyβ and γ phase. Thickness of each intermediate phase is examined. The results show that the alternative magnetic field increases the thicknesses of βand γ phase zone and the layer growth ofβ and γphase obeys the parabolic rate law. The growth rate of the β and γ phase are increased with the application of the alternative magnetic field. This change is manifested through a change in the frequency factor k0 and not through a change in the activation energy Q. The frequency factor k0 for intermediate phase growth with an alternative magnetic field is 39.95 cm2/s for 7 phase and 2.84×10-4 cm2/s for β phase compared with those without the magnetic field is 22.4 cm2/s for 7 phase and 1.53×10-4 cm2/s for β phase. 展开更多
关键词 Alternative magnetic field Al-Mg Couple Intermediate phase Thickness DIFFUSION
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Investigation of the application of a magnetic abrasive finishing process using an alternating magnetic field for finishing micro-grooves
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作者 Huijun Xie Yanhua Zou 《Nanotechnology and Precision Engineering》 CAS CSCD 2021年第3期12-19,共8页
A magnetic abrasive finishing process using an alternating magnetic field is proposed for the finishing of complex surfaces.In an alternating field,the periodic changes in current will cause the magnetic cluster used ... A magnetic abrasive finishing process using an alternating magnetic field is proposed for the finishing of complex surfaces.In an alternating field,the periodic changes in current will cause the magnetic cluster used as a magnetic brush to fluctuate,which will not only continuously replace the abrasive particles in contact with the workpiece,but also periodically adjust the shape of the magnetic cluster to better fit the surface of the workpiece.In this paper,the influence of a combination of alternating and static magnetic fields on the magnetic field in the finishing area is analyzed.The feasibility of this process for finishing micro-grooves is investigated.Simulations and experimental measurements show that the combination of alternating and static magnetic fields can retain the advantages of the alternating field while increasing the magnetic flux density in the finishing area.The experimental results show that the process is feasible for finishing micro-grooves,with an excellent deburring effect on the groove edges. 展开更多
关键词 Alternating magnetic field Complex surface DEBURRING Magnetic abrasive finishing Micro-groove
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A Double-Phase High-Frequency Traveling Magnetic Field Developed for Contactless Stirring of Low-Conducting Liquid Materials
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作者 Xiaodong Wang Ernst Roland Fautrelle Yves 《Computer Modeling in Engineering & Sciences》 SCIE EI 2021年第5期469-486,共18页
The use of low electrically conducting liquids is more and more widespread.This is the case for molten glass,salt or slag processing,ionic liquids used in biotechnology,batteries in energy storage and metallurgy.The p... The use of low electrically conducting liquids is more and more widespread.This is the case for molten glass,salt or slag processing,ionic liquids used in biotechnology,batteries in energy storage and metallurgy.The present paper deals with the design of a new electromagnetic induction device that can heat and stir low electricallyconducting liquids.It consists of a resistance-capacity-inductance circuit coupled with a low-conducting liquid load.The device is supplied by a unique electric power source delivering a single-phase high frequency electric current.The main working principle of the circuit is based on a double oscillating circuit inductor connected to the solid-state transistor generator.This technique,which yields a set of coupled oscillating circuits,consists of coupling a forced phase and an induced phase,neglecting the influence of the electric parameters of the loading part(i.e.,the low-conductivity liquid).It is shown that such an inductor is capable to provide a two-phase AC traveling magnetic field at high frequency.To better understand the working principle,the present work improves a previous existing simplified theory by taking into account a complex electrical equivalent diagram due to the different mutual couplings between the two inductors and the two corresponding induced current sets.A more detailed theoretical model is provided,and the key and sensitive elements are elaborated.Based on this theory,equipment is designed to provide a stirring effect on sodium chloride-salted water at 40 S/m.It is shown that such a device fed by several hundred kiloHertz electric currents is able to mimic a linear motor.A set of optimized operating parameters are proposed to guide the experiment.A pure electromagnetic numerical model is presented.Numerical modelling of the load is performed in order to assess the efficiency of the stirrer with a salt water load.Such a device can generate a significant liquid motion with both controlled flow patterns and adjustable amplitude.Based on the magnetohydrodynamic theory,numerical modeling of the salt water flow generated by the stirrer confirms its feasibility. 展开更多
关键词 Alternating magnetic field electromagnetic stirring low electrically conducting liquids ionic liquid
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Electron-Cyclotron Laser Using Free-Electron Two-Quantum Stark Radiation in a Strong Uniform Axial Magnetic Field and an Alternating Axial Electric Field in a Voltage-Supplied Pill-Box Cavity
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作者 S.H.Kim 《Chinese Physics Letters》 SCIE CAS CSCD 2016年第3期56-59,共4页
We consider the radiation from the beam electrons traveling in a strong uniform axial magnetic field and an axial alternating electric field of wavelength Aw generated by a voltage-supplied pill-box cavity. The beam e... We consider the radiation from the beam electrons traveling in a strong uniform axial magnetic field and an axial alternating electric field of wavelength Aw generated by a voltage-supplied pill-box cavity. The beam electrons emit genuine laser radiation that propagates only in the axial direction through free-electron two- quantum Stark radiation. We find that laser radiation takes place only at the expense of the axial kinetic energy when Aw 〈〈 c/(ωc/γ), where ωc/γ is the relativistic electron--cyclotron frequency. We formulate the laser power based on quantum-wiggler electrodynamics, and envision a laser of length lore with estimated power 0.1 GW/(kA) in the 10-4 cm wavelength range. 展开更多
关键词 of on in that Electron-Cyclotron Laser Using Free-Electron Two-Quantum Stark Radiation in a Strong Uniform Axial Magnetic Field and an Alternating Axial Electric Field in a Voltage-Supplied Pill-Box Cavity is STARK
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A Simulation Study on the Specific Loss Power in Magnetic Hyperthermia in the Presence of a Static Magnetic Field
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作者 Kenya Murase 《Open Journal of Applied Sciences》 2016年第12期839-851,共13页
Our purpose in this study was to present a method for estimating the specific loss power (SLP) in magnetic hyperthermia in the presence of an external static magnetic field (SMF) and to investigate the SLP values esti... Our purpose in this study was to present a method for estimating the specific loss power (SLP) in magnetic hyperthermia in the presence of an external static magnetic field (SMF) and to investigate the SLP values estimated by this method under various diameters (D) of magnetic nanoparticles (MNPs) and amplitudes (H<sub>0</sub>) and frequencies (f) of an alternating magnetic field (AMF). In our method, the SLP was calculated by solving the magnetization relaxation equation of Shliomis numerically, in which the magnetic field strength at time t (H(t)) was assumed to be given by , with H<sub>s</sub> being the strength of the SMF. We also investigated the SLP values in the case when the SMF with a field-free point (FFP) generated by two solenoid coils was used. The SLP value in the quasi steady state (SLP<sub>qss</sub>) decreased with increasing H<sub>s</sub>. The plot of the SLP<sub>qss</sub> values against the position from the FFP became narrow as the gradient strength of the SMF (G<sub>s</sub>) increased. Conversely, it became broad as G<sub>s</sub> decreased. These results suggest that the temperature rise and the area of local heating in magnetic hyperthermia can be controlled by varying the H<sub>s</sub> and G<sub>s</sub> values, respectively. In conclusion, our method will be useful for estimating the SLP in the presence of both the AMF and SMF and for designing an effective local heating system for magnetic hyperthermia in order to reduce the risk of overheating surrounding healthy tissues. 展开更多
关键词 Magnetic Hyperthermia Magnetic Nanoparticle Specific Loss Power Alternating Magnetic Field Static Magnetic Field magnetization Relaxation Field-Free Point
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Magnetic fields-induced modification of DNA content in date palm (Phoenix dactylifera L.)
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作者 Faten Dhawi Jameel M. Al-Khayri 《Journal of Agricultural Science and Technology》 2009年第4期5-9,共5页
Plant stress caused by exposure to magnetic fields (MF) induces modifications at molecular level, particularly in DNA synthesis, structure, and function. The objective of this study was to determine the effect of va... Plant stress caused by exposure to magnetic fields (MF) induces modifications at molecular level, particularly in DNA synthesis, structure, and function. The objective of this study was to determine the effect of various doses of non-ionizing radiation of magnetic field on date palm (Phoenix dactylifera L.) based on DNA content. Date palm seedlings (cv. Khalas) established for 2 weeks on filter paper were subjected to static magnetic field and alternating magnetic field. Static magnetic fields (SMF) were applied at 10, 50 and 100 mT for 30, 60, 120, 180, 240 and 360 min; while alternating magnetic field applied by magnetic resonance imaging (MRI) at 1500 mT for 1, 5, 10 and 15 min. The seedlings were grown in potting soil following exposure for 4 weeks after which DNA was extracted from leaves and its content was determined. Generally, the exposure to magnetic field caused reduction in the content of DNA. The lowest exposure time tested, 30 rain, was sufficient to induce reduction in DNA content. This was true even at the lowest intensity, 10 mT. This dosage caused the DNA content to decrease from 49 ~tg/g to 45 pg/g. Further, increase of the exposure duration to 60 min caused significant reduction in the DNA content, 36 μg/g. At intensities higher than 10 mT, DNA content decreased significantly even at the shortest exposure of 30 min. At 50 and 100 mT, significant decrease in DNA content was also noticed in response to 30 min exposure; whereas the level of DNA increased after 1 min of MRI exposure to 52 ~g/g, then decreased after 5 min to 46 ~g/g. However, longer durations caused no further decrease in the DNA content. These observations indicate that magnetic fields interact with DNA processes, probably by inhibiting synthesis or stimulating degradation of DNA. This response merits further exploration as a mutational agent for date palm genetic manipulation. 展开更多
关键词 date palm DNA content static magnetic field alternating magnetic field MUTATION
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Methods for Estimating Specific Loss Power in Magnetic Hyperthermia Revisited
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作者 Kenya Murase 《Open Journal of Applied Sciences》 2016年第12期815-825,共12页
Our purpose in this study was to present three methods for estimating specific loss power (SLP) in magnetic hyperthermia with use of an alternating magnetic field (AMF) and magnetic nanoparticles (MNPs) and to compare... Our purpose in this study was to present three methods for estimating specific loss power (SLP) in magnetic hyperthermia with use of an alternating magnetic field (AMF) and magnetic nanoparticles (MNPs) and to compare the SLP values estimated by the three methods using simulation studies under various diameters of MNPs (D), amplitudes (H<sub>0</sub>) and frequencies of AMF (f). In the first method, the SLP was calculated by solving the magnetization relaxation equation of Shliomis numerically (SLP<sub>1</sub>). In the second method, the SLP was obtained by solving Shliomis’ relaxation equation using the complex susceptibility (SLP<sub>2</sub>). The third method was based on Rosensweig’s model (SLP<sub>3</sub>). The SLP<sub>3</sub> value changed largely depending on the magnetic field strength (H) in the Langevin parameter (§) and it became maximum (SLP<sub>3</sub><sup>max</sup>) and minimum (SLP<sub>3</sub><sup>min</sup>) when H was 0 and ±H<sub>0</sub>, respectively. The relative difference between SLP<sub>1</sub> and SLP<sub>2</sub> was the largest and increased with increasing D and H<sub>0</sub>, whereas that between SLP<sub>1</sub> and was the smallest and was almost constant regardless of D and H<sub>0</sub>, suggesting that H in ξ should be taken as H<sub>0</sub> in estimating the SLP using Rosensweig’s model. In conclusion, this study will be useful for optimizing the parameters of AMF in magnetic hyperthermia and for the optimal design of MNPs for magnetic hyperthermia. 展开更多
关键词 Magnetic Hyperthermia Magnetic Nanoparticle Specific Loss Power Alternating Magnetic Field magnetization Relaxation
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Aerospace Electromagnetic Thruster with Average Foucault Currents
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作者 Sergey A. Gerasimov 《Advances in Aerospace Science and Technology》 2022年第1期25-31,共7页
The work is an attempt to find the force with which an electromagnetic system with Foucault currents acts on itself. It is taken into account that the average force with which the source of the alternating magnetic fi... The work is an attempt to find the force with which an electromagnetic system with Foucault currents acts on itself. It is taken into account that the average force with which the source of the alternating magnetic field and the inductive Foucault current is equal to zero, the self-force arises as a result of the interaction of unclosed Foucault conduction currents with the displacement current created by a conductor located in a non-uniform magnetic field. The average force acting on a symmetrical conductor located between the poles of an electromagnet turned out to be different from zero. The greatest value of this force is observed in the region of maximum inhomogeneity of the magnetic field. 展开更多
关键词 Eddy Currents Average Self-Force Alternative Magnetic Field Abraham Force
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Magnesium implants with alternating magnetic field-enhanced hydrogen release and proton depletion for anti-infection treatment and tissue repair
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作者 Nailin Yang Xiaoyuan Yang +9 位作者 Shuning Cheng Xiang Gao Shumin Sun Xuan Huang Jun Ge Zhihui Han Cheng Huang Yuanjie Wang Chong Cheng Liang Cheng 《Bioactive Materials》 SCIE CSCD 2024年第8期374-383,共10页
Implant-related osteomyelitis is a formidable hurdle in the clinical setting and is characterized by inflammation,infection,and consequential bone destruction.Therefore,effective reactive oxygen species(ROS)scavenging... Implant-related osteomyelitis is a formidable hurdle in the clinical setting and is characterized by inflammation,infection,and consequential bone destruction.Therefore,effective reactive oxygen species(ROS)scavenging,bacterial killing,and subsequent bone tissue repair are urgently needed for the treatment of difficult-to-heal osteomyelitis.Herein,we utilized the eddy-thermal effect of magnesium(Mg)implants under an alternating magnetic field(AMF)for the controlled release of H_(2)gas and ions(OH^(-)and Mg^(2+))for the treatment of osteomyelitis.H_(2)released by Mg rods under AMFs effectively scavenged cytotoxic ROS,exhibiting anti-inflammatory effects and consequently disrupting the environment of bacterial infections.In addition,the OH-hindered the energy metabolism of bacteria by effectively neutralizing protons within the microenvironment.Moreover,H_(2)impaired the permeability of bacterial membranes and expedited the damage induced by OH-.This synergistic AMF-induced H_(2)and proton depletion treatment approach not only killed both gram-negative and gram-positive bacteria but also effectively treated bacterial infections(abscesses and osteomyelitis).Moreover,Mg^(2+)released from the Mg rods enhanced and accelerated the process of bone osteogenesis.Overall,our work cleverly exploited the eddy-thermal effect and chemical activity of Mg implants under AMFs,aiming to eliminate the inflammatory environment and combat bacterial infections by the simultaneous release of H_(2),OH^(-),and Mg^(2+),thereby facilitating tissue regeneration.This therapeutic strategy achieved multiple benefits in one,thus presenting a promising avenue for clinical application. 展开更多
关键词 Magnesium implants Bacterial infection Alternating magnetic field Gas therapy Proton consumption ANTI-INFLAMMATORY
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Ultrathin, flexible, and high-strength Ni/Cu/metallic glass/Cu/Ni composite with alternate magneto-electric structures for electromagnetic shielding 被引量:7
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作者 Zenan Ma Jiawei Li +6 位作者 Jijun Zhang Aina He Yaqiang Dong Guoguo Tan Mingqiang Ning Qikui Man Xincai Liu 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2021年第22期43-50,共8页
Electromagnetic interference(EMI)shielding materials with ultrathin,flexible,superior mechanical and thermal management properties are highly desirable for smart and wearable electronics.Here,ultrathin and flexible Ni... Electromagnetic interference(EMI)shielding materials with ultrathin,flexible,superior mechanical and thermal management properties are highly desirable for smart and wearable electronics.Here,ultrathin and flexible Ni/Cu/metallic glass/Cu/Ni(Ni/Cu/MG)multilayer composite with alternate magnetic and electrical structures was designed via facial electroless plating of Cu and Ni on an Fe-based metallic glass.The resultant 0.02 mm-thick Ni/Cu/MG composite displays a superior EMI shielding effectiveness(EMI SE)of 35 dB and a great EMI SE/t of 1750 dB/mm,which is greater than those of composites with monotonous multilayer or homogeneous structures.The improved EMI SE originates from the massive ohmic losses,the enhanced internal reflection/absorption,and the abundant interfacial polarization loss.Particularly,Ni/Cu/MG exhibits a high tensile strength of up to 1.2 GPa and outstanding mechanical stability,enabling the EMI SE remains unchanged after 10,000 times of bending.Moreover,Ni/Cu/MG has excellent Joule heating characteristics and thermal stability,which is very suitable for heating components of wearable hyperthermia devices. 展开更多
关键词 Electromagnetic shielding Thermal management Mechanical properties Fe-based metallic glasses Alternate magnetic and electrical structures
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Targeted inductive heating of nanomagnets by a com- bination of alternating current (AC) and static magnetic fields 被引量:3
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作者 Ming Ma Yu Zhang Xuli Shen Jun Xie Yan Li Ning Gu 《Nano Research》 SCIE EI CAS CSCD 2015年第2期600-610,共11页
The conversion of electromagnetic energy into heat by nanomagnets has the potential to be a powerful, non-invasive technique for cancer therapy by hyperthermia and hyperthermia-based drug release, while temperature co... The conversion of electromagnetic energy into heat by nanomagnets has the potential to be a powerful, non-invasive technique for cancer therapy by hyperthermia and hyperthermia-based drug release, while temperature controllability and targeted heating are challenges to developing applications of such magnetic inductive hyperthermia. This study was designed to control the hyperthermia position and area using a combination of alternating current (AC) and a static magnetic field. MnZn ferrite (MZF) nanoparticles which exhibited excellent hyperthermia properties were first prepared and characterized as an inductive heating mediator. We built model static magnetic fields simply using a pair of permanent magnets and studied the static magnetic field distributions by measurements and numerical simulations. The influence of the transverse static magnetic fields on hyperthermia properties was then investigated on MZF magnetic fluid, gel phantoms and SMMC-7721 cells in vitro. The results showed a static magnetic field can inhibit the temperature rise of MZF nanoparticles in an AC magnetic field. But in the uneven static magnetic field formed by a magnet pair with repelling poles face-to-face, the heating area can be restricted in a central low static field; meanwhile the side effects of hyperthermia can be reduced by a surrounding high static field. As a result we can position the hyperthermia area, protect the non-therapeutic area, and reduce the side effects lust by using a well-designed combination of AC and static field. 展开更多
关键词 HYPERTHERMIA magnetic nanoparticles static magnetic field alternating magnetic field MnZn ferrite
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Hot Tearing Susceptibility of AXJ530 Alloy Under Low-Frequency Alternating Magnetic Field 被引量:3
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作者 Xudong Du Feng Wang +3 位作者 Zhi Wang Xingxing Li Zheng Liu Pingli Mao 《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2020年第9期1259-1270,共12页
Herein, a hot tearing measured system with external excitation coil and a differential thermal analysis system with applied magnetic field were used to study the effects of low-frequency alternating magnetic field on ... Herein, a hot tearing measured system with external excitation coil and a differential thermal analysis system with applied magnetic field were used to study the effects of low-frequency alternating magnetic field on the solidification behavior and hot tearing susceptibility(HTS) of the AXJ530 alloy under different magnetic field parameters. The hot tearing volume of the castings was measured via paraffin infiltration method. The microstructure of the hot tearing zone of the casting was observed using optical microscopy and scanning electron microscopy, and the phase composition was analyzed using X-ray diffraction and energy depressive spectroscopy. The experimental results show that the solidification interval of AXJ530 alloy was shortened and the dendrite coherency temperature of the alloy decreased with the increase in frequency of alternating magnetic field. Under appropriate magnetic field parameters, the electromagnetic force could enhance the convection in the melt to promote the flow of the residual liquid phase, refine the microstructure, and optimize the feeding channel in the late solidification stage, which reduced the HTS of the alloy. However, when the magnetic field frequency was increased to 15 Hz, the induced current generated excessive Joule heat to the melt. At this time, the thermal action of the magnetic field coarsened the microstructure of the alloy, resulting in an increase in HTS of the alloy. 展开更多
关键词 AXJ530 alloy Hot tearing susceptibility Alternating magnetic field MICROSTRUCTURE
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