基于Fe73.5Cu1Nb3Si13.5B9非晶/纳米晶粉的压磁复合材料研究

研究了基于Fe73.5Cu1Nb3Si13.5B9非晶/纳米晶粉的柔性压磁复合材料制备技术及其性能,讨论了橡胶种类,磁粉粒径、含量及工艺因素等对Fe73.5Cu1Nb3Si13.5B9/橡胶复合材料压磁性能的影响。结果表明:采用粒径为45μm,用量约15%的Fe73.5Cu1Nb3Si13.5B9非晶/纳米晶粉与高温硫化有规共聚硅氧烷在171℃,15MPa条件下,硫化45min制备的、厚度约150μm的压磁复合材料薄膜具有较好的应力敏感特性和压磁稳定性能,有望作为新一代柔性、薄型接触应力传感器的敏感元件材料。

节能变压器用非晶合金的改性研究

采用分段机械球磨-放电等离子烧结法,进行了节能变压器用新型非晶合金Fe77Si9B13Ce0.5Nb0.2Cr0.3,并进行了XRD、SEM分析和软磁性能、力学性能和耐腐蚀性能的测试。结果表明,与现有非晶合金Fe78Si9B13相比,该新型非晶合金的软磁性能、力学性能和耐腐蚀性能均得到明显改善,其中初始磁导率和饱和磁感应强度分别增加了70%、32%,20℃时试样的抗拉强度和伸长率分别增加36%、4.4%,腐蚀电位正移268 m V。

TiO_2封装对铁基纳米晶磁芯软磁性能的影响

以钛酸四丁酯为前驱体,二乙醇胺为抑制剂,采用溶胶-凝胶法制备TiO_2溶胶,再用浸渍提拉法在Fe_(73.5)Cu_1Nb_3Si_(13.5)B_9纳米晶磁芯表面制备TiO_2涂层,研究了TiO_2封装对纳米晶磁芯软磁性能的影响。结果表明,与TiO_2封装前相比,TiO_2封装后纳米晶磁芯的初始磁导率μ_i、最大磁导率μ_m、饱和磁感应强度B_s、电感L_s、品质因数Q和感应电动势E减小;剩磁B_r、磁滞损耗P_u和矫顽力H_c增大。

Rare Earths and Magnetic Refrigeration

Magnetic refrigeration is a revolutionary, efficient, environmentally friendly cooling technology, which is on the threshold of commercialization. The magnetic rare earth materials are utilized as the magnetic refrigerants in most cooling devices, and for many cooling application the Nd2Fe14B permanent magnets are employed as the source of the magnetic field. The status of the near room temperature magnetic cooling was reviewed.