冶金工业的发展及其对冶金轧辊的需求

从冶金工业的发展现状可知高质量的轧辊仍是一个很大的市场。高速钢轧辊具有很强的竞争力。离心铸造法生产高速钢轧辊是主要的工艺方法。     

基于改进LMD和能量相对熵的主动配电网故障定位方法

针对配电网发生单相接地故障且分布式电源（distributed generations, DGs）大量接入后,配电网结构和运行方式复杂多变、故障后电气量不明显、故障特征弱等特点,提出一种基于改进局部均值分解（improved local mean decomposition, ILMD）和能量相对熵的主动配电网故障定位方法。首先,利用镜像延拓将信号在两端延拓,消除LMD存在的端点效应,同时,在信号中加入自适应噪声,克服LMD存在的模态混叠问题,对各区段暂态零序电流进行ILMD分解;然后对分解后所有乘积函数（product function, PF）的能量相对熵进行计算,所有PF分量的相对能量熵之和即为区段间的相对能量熵,通过所设置的定位判据,对故障区段进行判断。仿真结果表明,所提算法在10 kV小电流接地系统和改进的IEEE33节点系统中,在不同的仿真条件下故障定位结果准确率高,验证了所提方法的准确性。     

电磁换向阀的卡死故障诊断

本文将提出一种直流电磁换向阀故障诊断的新方法。它利用线圈电流在启动或复位过程中的变化特征，来判断阀芯是否卡死，并且分析产生此故障的原因。此方法简单、实用、快捷，为直流电磁换向阀故障诊断技术开辟了新的途径。     

Properties and Microstructuresof Three Kinds of Silversheathed Bi-2223 Tapes

ＰｒｏｐｅｒｔｉｅｓａｎｄＭｉｃｒｏｓｔｒｕｃｔｕｒｅｓｏｆＴｈｒｅｅＫｉｎｄｓｏｆＳｉｌｖｅｒｓｈｅａｔｈｅｄＢｉ－２２２３ＴａｐｅｓＺｅｎｇＲｏｎｇ；ＺｈｏｕＹｉｒｕ；ＹｅＢｉｎ；ＺｈｏｕＭｉｎ；ＺｈａｎｇＪｉａｎｇｕｏ（曾荣）（周贻茹）（叶斌）...     

涡流检测信号小波除噪与缺陷特征提取

应用小波分析技术进行涡流检测的信号除噪和缺陷识别。根据信号在不同小波变换下表现形式不同的特点，提出一种综合应用多种小波除噪的方法，效果优于通常的单一小波方法。应用小波多尺度边缘检测功能进行缺陷的定位和尺寸判别。借助小波多尺度分析功能，可以对缺陷信号进行仔细分析，并对相近缺陷进行分类。     

渗碳材料涡流测试系统的研究

以通用有限元分析软件ANSYS作为二次开发平台，开发了面向渗碳材料的涡流测试系统。该系统将有限元前处理、涡流电磁场计算、渗碳层深度逆问题求解及计算结果的可视化处理结合起来，提供了良好的用户界面。     

An experimental evaluation of the effects of ripple current generated by the power conditioning stage on a proton exchange membrane fuel cell stack

In this article, an impedance model of the proton exchange membrane fuel cell stack (PEMFCS) is proposed. The proposed study employs an equivalent circuit of the PEMFCS derived by the frequency response analysis technique. An equivalent circuit for the PEMFCS is developed to evaluate the effects of ripple currents generated by the power-conditioning unit. The calculated results are then verified by means of experiments using a commercially available PEMFCS. The relationship between ripple current and fuel cell performance, such as power loss and fuel consumption, is investigated. Experimental results show that the ripple current can contribute up to a 6% reduction in the available output power. This paper was presented at the Fuel Cells: Materials, Processing, and Manufacturing Technologies Symposium sponsored by the Energy/Utilities Industrial Sector & Ground Transportation Industrial Sector and the Specialty Materials Critical Technologies Sector at the ASM International Materials Solutions Conference, October 13–15, 2003, in Pittsburgh, PA. The symposium was organized by P. Singh, Pacific Northwest National Laboratory, S.C. Deevi, Philip Morris USA, T. Armstrong, Oak Ridge National Laboratory, and T. Dubois, U.S. Army CECOM.     

铝合金牺牲阳极电流效率损耗的微观分析

探针（EPMA）和能谱分析技术(EDAX)，考察了铝合金牺牲阳极的显微结构和腐蚀后的边缘形貌，讨论了电流效率和显微组织之间的关系.结果表明：晶界腐蚀引起的晶粒脱落是铝合金牺牲阳极电流效率损耗的重要原因.      

THEORETICAL INVESTIGATION ON BY-ONLY-CURRENT ELECTROMAGNETIC SEPARATION OF INCLUSION FROM MOLTEN METALS

The electromagnetic field under applied AC and DC current in round and rectangular pipe was systematically investigated, then a concept of "equivalent current density" was proposed for evaluating the inhomogeneous electromagnetic pinch force, and the mono-component removal efficiency and the overall removal efficiency of inclusion were formulated. It is founded that flat pipe is superior to round pipe for the electromagnetic removal of inclusion, and DC current can get a higher removal efficiency than A C current due to absence of skin phenomenon. Under usual condition, a removal efficiency of 52% for 10μm inclusion or more than 92% for 20μm inclusion can be achieved by imposing a current density of 3×106A/m2 in a flat pipe.