磁制冷

用Langevin理论研究回热式室温磁制冷循环性能

Research on Performance of Regenerative Room-Temperature Magnetic Refrigeration Cycle Through Magnetocaloric Parameter Deduced by Langevin Theory

磁制冷材料在不同温度下的M-H曲线测量方法及设备的研究

M-H Curve Measurement Method and Apparatus for Magnetic Refrigeration Materials

室温磁制冷材料Gd与Cu的真空扩散焊工艺

Study on the Vacuum Diffusion Bonding Technics between Magnetic Refrigerant Material Gd at Room-temperature and Cu

Gd5Si2Ge2/Gd室温磁制冷复合材料激光熔覆成形工艺研究

Study on the Laser Cladding Process of the Room-temperature Magnetic Refrigerating Materials Gd_5Si_2Ge_2 / Gd

研究铁基La（Fe，Si）（13）化合物的磁性、磁场诱导的熵变及相变性质等可以为磁制冷样机的研制提供指导。

In this paper , we mainly researched magnetic properties , magnetic field-induced entropy change and phase transition in Fe-based La ( Fe , Si ) _ ( 13 ) compounds .

围绕具有一级磁性相变的La-Fe基NaZn13型化合物的磁场诱导熵变研究，从室温磁制冷目的出发讨论了材料研究和熵变机制。

Magnetic field induced entropy change was investigated for La-Fe based NaZn_ ( 13 ) - type compounds with magnetic first-order phase transition . In view of magnetic refrigeration at room temperature , the developing of the materials and the understanding of the entropy change were reviewed .

近室温磁制冷工质选择的热力学准则

Thermodynamic norm for selecting refrigerant of magnetic refrigeration near room temperature

室温磁制冷蓄冷器的传热问题室温磁制冷活性蓄冷器性能预测研究

Performance Prediction of Active Magnetic Regenerator of Room Temperature Magnetic Refrigeration

近室温磁制冷工质的研究现状与发展前景

Recent development and prospect of magnetic refrigerant at near room temperature

采用串级的思想设计了一台室温磁制冷装置。

A room-temperature magnetic refrigeration apparatus is designed and built .

介绍室温磁制冷系统的流程。

The flow process of room temperature magnetic refrigeration system is introduced .

这些结果有助于解决室温磁制冷机的一些问题。

We think the results can solve some problems on magnetic refrigeration .

钙钛矿锰氧化物磁制冷材料的研究

Research on Perovskite - type Manganese Oxides as Magnetic Refrigerant Material Perovskite Structure

磁制冷在空间科学应用展望

Prospect for application of magnetic refrigeration in space science

熵与绝热去磁制冷的物理原理

Entropy and physical principles of adiabatic demagnetization refrigeration

室温磁制冷研究新动态及应用

New trends of research on room-temperature magnetic refrigeration

磁制冷材料表面保护膜附着性能的研究

Study on the Adhesion Property of Surface Protective Films on the Magnetic Refrigerant Materials

简要叙述了磁制冷的基本原理和历史发展。

The basic principle and the developing process of magnetic refrigeration are briefly described .

磁制冷工质材料的研究进展

Progress on working material of magnetic cooling

换热流体对旋转式室温磁制冷特性影响实验分析

Effect of flow fluid characteristics on performance of rotary magnetic refrigeration for room temperature application

磁制冷循环分析

Analysis on Research of Magnetic Refrigeration Cycle

本文给出了设计室温磁制冷功能材料的基本原则及具体方法。

The basic principles of designing ambient temperature magnetic refrigerant materials and concrete method are given .

这为室温磁制冷样机的设计提供了更全面的实验数据，丰富了室温磁制冷的研究手段。

This work can provide comprehensive data for designing room-temperature magnetic refrigerators and enriches method of investigating room-temperature magnetic refrigeration .

这些结果表明，该材料是室温附近磁制冷合适的工作物质。

These results suggested that this material is a suitable candidate as working substance in magnetic refrigeration near room temperature .

并依此参数的新表达式对回热式室温磁制冷循环进行数值计算。

Moreover , a numerical simulation was carried out for the regenerative room-temperature magnetic refrigeration cycle based on the new parameters .

本文首先就磁致冷的基本原理、磁制冷关键技术、磁致冷材料的发展等问题做了简要的概述。

Firstly the article briefly introduces the basic principle , the key technology of magnetic refrigeration and the development of magnetic refrigerants .

室温磁制冷和超高密度磁记录是当今磁学领域中的两大热点课题，受到全世界人们广泛的关注。

Nowadays room-temperature magnetic refrigeration and ultrahigh-density magnetic recording are two hot subjects in the magnetism field , and have been extensively studied .

本文从熵的观点出发，利用热力学，统计物理与量子力学理论分别从宏观与微观的角度对磁制冷的物理原理进行了初等分析。

Starting from the concept of entropy , elementary macroscopic and microscopic analysis are presented with thermodynamics , statistical physics and quantum theory .

稀土锰钙钛矿陶瓷磁制冷材料低热固相反应法合成尖晶石型锰酸锂材料及其电化学性能的研究

Rare Earth Perovskite-Type Manganese Oxides as Magnetic Refrigerant Material Studies of Manganese Oxides Prepared by Solid-State Reaction at Low Temperature and Electrochemical Properties

经过理论和实验上的研究，人们预测带有自旋阻挫的系统将有望成为新一代磁制冷工质和磁记录材料的候选。

In recent years , theoretical and experimental investigations predict that frustrated systems would become new good candidates for magnetic refrigeration and magnetic recording .