四辊轧机辊系间的轴向摩擦力对辊系轴承寿命的影响

四辊轧机工作辊轴承和支承辊止推轴承失效的主要原因是它们在工作中所受的轴向载荷过大。工作辊与支承辊轴线的不平行引起其接触面的轴向相对滑动 ,由此产生轴向滑动摩擦力 ,使轧辊轴承最终失效。通过对辊系的分析 ,给出了解决该问题的新的设计思路 ,对新轧机的设计和旧轧机的改造具有指导意义     

纳米铁微粒制备新进展

纳米铁微粒是重要的纳米金属材料。本文综述了纳米铁微粒制备方法（包括物理方法和化学方法）的最新进展。     

超音速微粒高能轰击16MnR钢表面纳米化的研究

采用冷气动力超音速微粒高能轰击技术对16MnR低合金钢表面进行处理,利用扫描电镜、透射电镜和X衍射方法对基体表面的微观形貌和结构进行分析.试验结果表明:试样经过超音速微粒轰击处理后可以使表层晶粒细化至纳米量级,平均晶粒的尺寸为14.2 nm;处理后表层主要产生压应力;处理后表层的显微硬度增加.     

Worker Exposure Monitoring of Suspended Particles in a Thermal Spray Industry

The purpose of the present work was the investigation and characterization of the quality of air in a thermal spray industry, in Greece. The activities that take place in the specific facility, as well as in most other similar industries, include thermal spraying and several mechanical and metallurgical tasks that generate airborne particles, such as grit-blasting, cutting and grinding of metallic components. Since the main focus of this work was the workers exposure to airborne particles and heavy metals, portable air samplers with quartz fiber filters, were used daily for 8 h. Three samplers, carried from different employees, were used for a period of 1 month. Results showed that both particles and heavy metals concentrations were low, even in the production site, which was the most susceptible area. The only exceptions were observed in the case of cleaning and maintenance activities in the thermal spray booth and in the case of spraying outside the booth. The main reason for the low concentrations is the fact that most of the activities that could produce high-particle concentrations are conducted in closed, well-ventilated systems. Statistical elaboration of results showed that particles are correlated with Ni, Cu, Co. The same conclusion is extracted for Fe, Mn. These correlations indicate possible common sources.     

真空电弧涂镀TiN膜中宏观颗粒的电镜分析

用扫描电镜（ＳＥＭ）分析了真空电弧沉积ＴｉＮ膜中宏观颗粒（ＭＰ）的形态，并对观察结果给出了理论解释。电镜分析表明，ＴｉＮ膜中ＭＰ的形态与其粒径有关，粒径大的呈椭球形，粒径小的呈圆球形；ＭＰ与膜层之间有微小孔隙。理论分析表明，形成ＭＰ的液滴在飞行中温度降低的幅度是决定其形态的主要因素。     

SiC颗粒增强锌基复合材料硬度的研究

本文研究了热处理条件对ＳｉＣ／Ｚｎ基复合材料硬度的影响，分析了循环等温处理过程中复合材料硬度的变化规律，并讨论了复合材料组分、温度以及热处理条件与该复合材料硬度特性的关系，提出了改善这类复合材料硬度的途径。     

SiO2微粉分形分布对超薄切割砂轮片拉伸性能的影响

在研究利用光敏树脂快速成型工艺制作超薄切割砂轮片时，发现往光敏树脂中添加适量的SiO2微粉，光敏树脂的拉伸强度明显增加。添加的SiO2微粉的用量的不同，在光敏树脂中形成的分形分布不同，对光固化成型后的超薄切割砂轮片的拉伸强度有不同的影响。本文通过研究SiO2微粉在光敏树脂中分布特征，根据分形理论，用分形维来描述其分布特征及其对光敏树脂光固化成型后的超薄切割砂轮片的拉伸性能的影响。     

微粒渗滤沉积作用对铜矿排土场渗流特性的影响

针对排土场堆浸过程中微粒渗滤沉积作用对矿堆孔隙率的影响，建立微细颗粒沉积和堆体渗流数学模型。在一维条件下，利用有限差分法对模型进行理论计算，并通过实验进行验证，结果表明：微粒的渗滤沉积降低浸堆的孔隙率，增大溶液的渗透阻力；在常流量动水头条件下，渗滤沉积首先发生在模型注液端的20cm以内，沿渗流方向上，流体压力随时间延长而增大；在常水头条件下，随时间的推移，渗流速度逐渐降低，表明堆体的渗透性降低，与排土场浸堆实际情况相符。因此，应采取必要的技术措施，防止微粒渗滤沉积，这对于改善堆体的渗透性和提高浸出率，具有重要的意义。     

多晶体钛拉伸变形表面褶皱的形成及晶粒变形

用原子力显微镜对多晶体钛拉伸塑性变形中表面褶皱的形成及单个晶粒的变形进行了连续观察和测量.结果表明,表面褶皱随着应变量的增加而增大,而凹凸的相对位置关系不随变形的进行而变化.从单个晶粒来看应变量在0.1附近时由于孪晶的形成产生了新的凹凸,但对整体的表面褶皱凹凸位置关系没有大的影响.表面平均粗糙度和表面最大高低差随应变量的增加近似呈直线性增大,应变量在0.1左右时由于孪晶的形成,使粗糙度有较明显的增大.     

Effect of gas composition on cementite decomposition and coke formation on iron

Cementite decomposition and coke formation in the metal dusting process of iron were investigated at 700 °C in CO-H₂-H₂O gas mixtures. The presence of graphite deposited on the surface initiates the decomposition of cementite into iron and graphite. The morphology of the reaction products varies with gas composition. For CO concentrations less than 5 vol%, particles of iron or even closed iron layers have been observed at the cementite/graphite interface. With increasing CO content the amount of iron in the interface decreases. At CO concentrations higher than 30 vol%, iron could not be detected at the interface by optical microscopy. Thermo-gravimetric analysis shows that the rate of carbon take-up increases with increasing CO concentration reaching a maximum at about 60-75 vol%.The morphologies of graphite in the coke layer can be identified as three types: porous graphite clusters with embedded iron-containing particles, compact bulk graphite with a uniform thickness and a columnar layered structure, and filamentous carbon with iron-containing phases at the tip or along its length. For gas mixtures with low CO concentrations, e.g. 5 vol%, porous graphite clusters are the main form of carbon although filamentous carbon can be seen at the early stage of reaction. With increasing CO concentrations to, e.g. 30 vol%, a compact bulk graphite is formed on the top of the surface. Under this compact graphite, there is an inner layer of graphite which is the combination of porous graphite clusters and filaments. These two layers of graphite are clearly distinguishable when CO content reaches more than 75 vol%. In this case, the main form of graphite in the inner layer is filamentous carbon. The compact graphite layer suffers a serious deformation and forms many cracks because of the growth of catalytic filamentous carbon underneath. These filaments grow outside from compact graphite crevices and finally cover the whole surface. The higher the CO content in the gas, the more the tendency of filamentous carbon formation. The interplay between morphologies of carbon formation and metal dusting has been discussed.