现代化小型型钢轧机建设的若干问题

本文阐述了实现小型型钢轧机连续化的重要性和迫切性，并指出了在建设小型连轧机中应重视的若干技术问题。     

Preparation and characterization of biomorphic SiC hollow fibers from wood by chemical vapor infiltration

Biomorphic SiC hollow fibers were prepared by the reactive infiltration of SiO vapor into basswood-derived charcoal. Gaseous SiO was produced from a SiO₂/Si powder mixture in Ar at elevated temperatures. Scanning electron microscopy, energy dispersive X-ray spectroscopy, X-ray diffraction and Fourier transform-infrared spectroscopy were employed to characterize the structural morphology and phase compositions of the final products. The results show that the tubular cells in bulk charcoal are converted into lots of SiC hollow fibers with pore diameters of 10–50 μm and lengths ranging from hundreds of μm to several mm. Resulting SiC hollow fibers consist of β-SiC with a minute amount of α-SiC. The formation mechanism of SiC hollow fibers is based on the gas–solid reaction between SiO and carbon.     

Effects of distance between arc and heat sink on stress and distortion in DC-LSND welding technology

The characteristics of temperatures, stresses and strains fields have been studied numerically for a titanium alloy sheet welded with an improved gas tungsten arc welding method, in which a trailing spot heat sink is introduced to control the welding stress and distortion. The impinging jet model is employed to describe the internee heat transfer between the cooling media and the top suufuce of the workpiece. The influcnee of the distance between arc and heat sink is investigated. Results show that there is an ideal range of distance. Using the ideal distance, a low stress and no distortion welding structure can be derived.     

X-ray fluorescence spectrometry determination of open-hearth furnace slag by pressed powder briquetting

Chemical composition of open-hearth furnace slag isimportant for the metal and casting quality. The chemicalcomponents of slag need to be analyzed precisely andaccurately.For a long time the composition determination of slag ismade chemically, which involves complicated processes,long analytical cycle, high cost and tedious work. A greatmany successful applications of ores analysis by x-rayfluorescence spectrometry (XRF) have been reported[1-4].Powder-fused wafer is a sampling method used in…     

添加剂对Al2O3／BN可加工陶瓷性能的影响

采用Si3N4和SiC作为Al2O3／BN可加工陶瓷的添加剂，考察了添加剂种类和含量对材料力学性能及可加工性能的影响。研究表明，2种添加剂均对调节体系中由于热膨胀失配所引起的人的内应力起到积极的作用。材料的抗弯曲强度随添加剂含量的增加而提高，同时可加工性能略有降低。尤其是Si3N4的加入使体系在热压烧结过程中原位反应生成液相x-Sialon，显著降低了烧结温度，促进材料的致密化。     

CALCULATION OF PHASE DIAGRAM FOR PSEUDOBINARY GaAs-InAs

ＣＡＬＣＵＬＡＴＩＯＮＯＦＰＨＡＳＥＤＩＡＧＲＡＭＦＯＲＰＳＥＵＤＯＢＩＮＡＲＹＧａＡｓ－ＩｎＡｓ￥Ｑｉａｏ，Ｈｕａｎ；Ｓｈｅｎ，Ｊｉａｎｙｕｎ；Ｌｉ，Ｇｕｏｘｕｎ（ＧｅｎｅｒａｌＲｅｓｅａｒｃｈＩｎｓｔｉｔｕｔｅｆｏｒＮｏｎｆｅｒｒｏｕｓＭｅｔａｌ...     

钛合金带热沉钨极氩弧焊中热沉作用

采用数值模拟和实验相结合的方法研究了钛合金TC4薄板常规及带热沉的钨极氩弧焊焊接过程中温度及应力应变的分布,考察了热沉对温度场和应力应变场的影响规律,探讨了使用该技术实现应力和变形控制的机理.结果表明:带热沉的钨极氩弧焊焊接过程中,紧随热源之后热沉急冷作用使得试件形成马鞍形温度场,而热沉作用部位温度最低.热沉作用部位的急冷收缩对周围金属产生拉伸作用,使得焊缝及近缝区金属升温过程中产生的压缩塑性应变减小,冷却过程中产生的拉伸塑性应变增大,接头中不协调应变减小,残余应力降低.实验测量与有限元模拟结果吻合良好,证实了采用热沉控制应力与变形的有效性和有限元模型的正确性.     

AC5型交流阻抗测试系统的建立

本文介绍了作者研制的AC5型电化学交流阻抗测试系统，它的硬件和软件是针对电化学体系而设计的，因而比一般通用型测试系统操作使用方便。AC5型电化学交流阻抗测试系统可用于金属耐蚀性能、缓蚀剂性能和电池等的研究。     

Al-P中间合金在Al-Si活塞合金中的应用

在实验室和生产条件下研究了Al-P中间合金对共金和过共晶Al-Si活塞合金的变质工艺特点，变质效果和力学性能等的影响，结果表明：使用Al-P中间合金操作简单，变质效果好且稳定，力学性能也比其他变质剂有不同程度的提高；使用该中间合金无渣，无污染，从时间上看可以完全省去变质处理过程，节约能源，提高合金的实收率，降低铝耗，有着良好的应用前景。