magnetocaloric effect
英
美
网络 磁热效应; 磁致热效应; 磁卡效应
双语例句
- The Magnetic Properties, Phase Transitions, and Magnetocaloric Effect in Ni-Mn-Co-Sn Ferromagnetic Shape Memory Alloys
Ni-Mn-Co-Sn铁磁形状记忆合金的磁性、相变及磁热效应 - Martensitic transformation and magnetocaloric effect in Ni-Co-Mn-Sn Heusler alloy
哈斯勒合金Ni-Co-Mn-Sn的马氏体相变及其磁热效应研究 - The first order phase transformation in the samples made of commercial Gd was destroyed by impurities, and no giant magnetocaloric effect was found.
发现采用商业级钆配制合金时,由于杂质抑制了材料的一级相变,未发现巨磁热效应。 - Characteristics in magnetocaloric effect and magnetic entropy of nanometer binary gadolinium alloys
Gd二元合金纳米固体的磁热熵特性 - Magnetocaloric Effect of LaMn_ ( 18) Fe_ ( 0.2) Ge_2 for A Low Field Change
LaMn(1.8)Fe(0.2)Ge2的低场磁熵变 - The direct measure of magnetocaloric effect and its equipment
磁热效应的直接测量及装置 - Direct Measurement and Setup for Magnetocaloric Effect
磁热效应的直接测量与测量仪器 - Influence of Gd Purity on Giant Magnetocaloric Effect of Gd-Si-Ge Alloys
原材料Gd对Gd-Si-Ge合金巨磁热效应影响的研究 - Simple and Convenient Calculation of Magnetocaloric Effect of Gadolinium
钆磁热效应的简便计算 - Magnetocaloric Effect of Rare Earth Materials and Their Applications
稀土材料的磁热效应及其应用 - Influence of Dy on the Magnetocaloric Effect for Pure Metal Gd
Dy对Gd磁热效应的影响 - Since magnetic refrigeration, especially the magnetic refrigeration near room temperature has significant importance to save energy sources and protect environment people relied on living, the large magnetocaloric effect in perovskite provides a new area for the magnetic refrigeration material near room temperature.
在磁致冷应用方面,特别是由于室温磁致冷对节约能源,保护人类赖以生存的环境具有重要的意义,钙钛矿材料中大的磁熵变效应为室温磁致冷工质的选择开辟了新的领域; - Magnetocaloric effect study in the different scales of gadolinium
不同尺度下金属钆的磁热效应研究 - Effect of C on the Magnetization, Magnetocaloric Effect and Microhardness of Gd
C对Gd的磁热性能和显微硬度的影响 - One of the important ways to improve the room temperature magnetic refrigerating materials is to fabricate the composite material by combining materials with different Cure temperatures to widen the peak width of the magnetocaloric effect curve.
最后指出将居里温度不同的材料进行合理组合而得到复合材料,以拓宽材料的磁热效应曲线是室温磁致材料研究发展的一个重要途径。 - The fundamental theories and the methods of measurement of magnetocaloric effect are described.
阐述了磁热效应的基本理论及测量方法。 - Magnetocaloric effect of CoCr_2O_4 nanoparticles with a first-order magnetic transition
具有一级相变的CoCr2O4纳米颗粒体系的磁卡效应 - Furthermore, the importance of the equipment of direct measure for use in the magnetocaloric effect in the research of room-temperature magnetic refrigeration technology is mainly pointed.
指出直接测量装置在室温磁制冷技术研究中的重要作用。 - Ni-Mn-Ga alloy is well known for its shape memory effect, and now is well-studied in magnetic refrigeration as a potential magnetic refrigerant for its giant magnetocaloric effect.
Ni-Mn-Ga合金具有形状记忆效应与巨磁热效应特征,是一种具有良好应用前景的新型磁性功能材料。 - Simultaneity, the magnetic entropy change and adiabatic temperature change which measured directly also increase as increasing B content, and show large magnetocaloric effect at lower magnetic field.
同时,磁熵变和直接测量的绝热温变也随着B含量的增加而增大了,在低磁场具有较大的磁热效应。 - La ( Fe, Si) 13 alloys have attracted much attention in recent years because they exhibit a large magnetocaloric effect near room temperature.
La(Fe,Si)13合金由于其具有较好的磁热效应,近年来得到了人们的青睐。 - Room temperature magnetic refrigeration is a new cooling method utilizing the magnetocaloric effect of magnetic material, which is environmentally friendly and more efficient and be promising to replace the vapor compression refrigeration. Now room temperature magnetic refrigeration attracts wide attention from all over the world.
室温磁制冷是一种利用磁性材料磁热效应实现制冷的新技术,具有绿色环保高效节能的特点。目前室温磁制冷技术受到广泛关注,被认为是最有可能取代蒸汽压缩式制冷的技术之一。 - While Gd-based BMGs with Magnetocaloric Effect ( MCE) make them have clear advantage, which open up a new applicable field for BMGs.
而具有磁热效应的Gd基大块非晶又使得它在应用方面凸显优势,为大块非晶开拓了一个新的可能的应用领域。 - The simulation results show that doping can change the magnetocaloric effect, also remind us that the different magnetic ions doping can increase the correspond temperature of the maximum entropy change of materials. This is benefit to develop room temperature materials in magnetic cooling.
模拟的结果表明,掺杂可以改变材料的熵变效应,因此可以通过掺杂不同的磁性离子可以提高材料最大熵变值所对应的温度,有利于开发室温条件下的磁冷却材料。 - The applications of magnetic hyperthermia used in early diagnosis and treatment of cancers which based on the magnetocaloric effect of magnetic nanoparticles have been widely researched, and some results have already been made.
其中,基于磁性纳米颗粒磁热效应的磁热疗在肿瘤的早期诊断与治疗中的应用,也受到了研究者的广泛关注,并取得了一定的研究成果。