超细硬质合金中晶粒非均匀长大机理

采用市售的粒度为0.8μm的WC粉末和粒度为1.6μm的Co粉制备了WC-10%Co超细硬质合金,通过金相显微镜﹑扫描电子显微镜观察了不同烧结温度下制备的试样WC晶粒形貌,对超细晶粒硬质合金非均匀长大现象及机理进行了研究。结果表明:粉末湿磨后的粗大颗粒在烧结过程中起晶核作用,是引起晶粒非均匀长大的关键因素。固相烧结时,烧结体中细小颗粒受到张力的作用发生旋转,当其取向与邻近的大颗粒取向一致时,形成共格界面,以粗大晶粒为核心以并合的方式非均匀长大;液相烧结时,细小晶粒溶解并优先地在大晶粒的某些低能量晶面如(0001)和(1010)面析出,引起晶粒异常长大。本研究中,当烧结温度达到1 410℃时,WC晶粒可异常长大为接近20μm的粗大晶粒。     

在表面活性剂存在下铬铁矿表土中镍的微生物萃取(英文)

加入表面活性剂吐温20,用Aspergillus niger对预处理过的印度Sukinda铬铁矿表土在摇瓶中生物浸取镍。考察添加表面活性剂吐温20对黑曲霉菌Aspergillus niger生长及浸镍效果的影响。结果表明,添加低浓度的表面活性剂吐温20对黑曲霉菌从预处理过的铬铁矿表土中提取镍是有利的。通常,Aspergillus niger利用培养基中的碳源来进行细胞代谢,产生有机代谢物,从而生物浸出矿。添加表面活性剂吐温20加速了黑曲霉菌对碳源的消耗,从而改善了镍浸出效果。在预处理矿浆浓度为2%和温度为30°C的条件下,添加表面活性剂吐温20的镍浸取率能达到39%,没有表面活性剂的镍浸取率只有24%。     

连续冷却条件下正常晶粒长大理论

探讨了单相合金高温形变再结晶后连续冷却条件下正常晶粒长大问题。结合传热学及晶界迁移理论证明，在连续冷却条件下晶粒的长大满足关系。进一步的理论分析表明，在连续冷却条件下，晶粒的长大存在因温度连续变化而形成的极限尺寸ｄ＿ｍ，以及相应的临界时间τ＿ｃ。试验结果与上述理论吻合较好。     

Fe－Ni合金贝氏体长大原位观察

利用透射电镜观察了Ｆｅ—３０ｗｔ—％Ｎｉ合金贝氏体铁素体／奥氏体界面结构，并利用透射电镜高温样品台对贝氏体铁素体台阶长大进行了原位动态观测。结果表明，铁素体呈台阶长大形态，在铁素体／奥氏体宽面上存在Ｂｕｒｇｅｒｓ矢是为［１１１］ｂ型的刃型错配位错，铁素体台阶的增厚速率与按Ｚｅｎｅｒ—Ｈｉｌｌｅｒｔ方程计算结果相符。为关于贝氏体生长台阶长大机制提供实验证据。     

An investigation of pore cracking in titanium welds

Two welded Ti-6A1-4V pressure vessels leaked prematurely in service. The leaks were caused by cracks emanating from weld porosity. The cracks originated during fabrication, with subsequent growth in service leading to the formation of the leak paths. Pore cracking is thought to be caused by a mechanism that involves both sustained-load and cyclic contributions, with the former being the more prominent. It is shown that the tendency for cracking is influenced by pore position and that pore size is not a deciding factor in that regard. The factors that govern pore cracking are discussed, and the possible role of interstitial embrittlement is assessed.     

超高强度钢CF裂纹扩展的超载效应 Ⅰ．定量模型及预测

将Ｗｉｌｌｅｎｂｏｒｇ的超载残余应力场模型与裂尖形变动力学、裂尖表面析氢反应电化学动力学以及裂尖材料内部氢的扩散动力学和热力学相结合，建立了氢脆腐蚀疲劳裂纹扩展（ＣＦＣＧ）超载效应的定量描述模型，给出了超载对裂尖表面析氢电化学反应及裂尖氢扩展影响的一系列判据和表达式．用上述模型进行的预测表明，对于超高强度钢，当两次超载周次之间裂纹扩展长度ａｄ远小于超载塑性区尺寸ｒｐＯＬ与恒载塑性区尺寸ｒｐＣＬＡ之差，即ａｄ＜＜ｒｐＯＬ－ｒｐＣＬＡ时，ＣＦＣＧ会发生比空气疲劳还强烈的超载迟滞效应．而当ａｄ＞ｒｐＯＬ－ｒｐＣＬＡ时，可能会发生超载加速效应．这种预测在后文中由试验的宏观规律与断口特征得到充分验证．     

应力比和频率对GC-4钢CF裂纹扩展特性的影响

研究了五种应力比和四种频率对ＧＣ－４（４０ＣｒＭｎＳｉＭｏＶＡ）钢在３５％ＮａＣｌ中性溶溶液中腐蚀疲劳裂纹扩展（ＣＦＣＧ）特性的影响．结果表明,在高应力比时,ＣＦＣＧ的ｄα／ｄｔ－Ｋｍａｘ曲线存在两个平台区ＰⅠ和ＰⅡ,且（ｄａ／ｄｔ）ＰⅡ＜（ｄａ／ｄｔ）ＰⅠ．ＣＦＣＧ的ｄａ／ｄＮ－△Ｋ曲线的平台区起始值面△Ｋｐ随频率升高呈幂函数关系而降低．从表面电化学反应动力学、裂尖表面形变动力学以及裂尖材料内部氢的扩散动力学三个方面综合考虑,导出了△ＫＰ－ｆ的理论函数关系．该函数关系与ＣＦＣＧ试验数据所显示的函数关系十分一致．     

Synergistic influence of alloy grain size and Si content on the oxidation behavior of 9Cr−1Mo steel

The synergistic influence of prior-austenite grain size and silicon content of 9Cr–1Mo steel on the resistance to scale spallation has been studied in air at 773 K (for 500 hr) and 973 K (12 hr). Two steels, irrespective of their grain size and Si content, did not show spallation during oxidation at 773 K. Spallation occurred at 973 K, and fine-grain steels exhibited less spallation resistance than coarse-grain ones (in low-as well as high-Si steels). Among the four possible combinations of grain size ans Si content, the steel with low Si and fine grains showed least resistance to spallation, while the steel with high Si and coarse grains showed the best resistance. Spallation was found to initiate in the areas adjoining the oxide ridges formed at the alloy grain boundaries. Oxide scales at the ridges and within the grains were analyzed by scanning electron microscopy (SEM/EDX) and secondary-ion mass spectrometry (SIMS). These analyses suggest depletion of silicon from the areas adjoining grain boundaries, resulting in thicker scaling that triggers spallation in such areas. For similar grain-size materials, the necessary thickness for spallation was attained earlier with low-Si steel rather than in high-Si steel.     

一种提高微生物发酵单位的新优化控制策略

为了提高微生物发酵单位,提出了支持向量机（SVM）与基于实数编码遗传算法（RGA）相互耦联的优化控制策略。为解决发酵参数之间的耦合问题,进一步引入了模式的概念。SVM建立微生物发酵过程的预估模型,RGA以此模型为适应度函数计算最优控制模式。此策略应用于青霉素发酵过程的优化控制,效价比没有实施优化控制策略的生产结果提高了22.88％。     

反渗透膜微生物污染特性及影响因素研究

通过对反渗透膜微生物污染影响因素的分析,表明进水中有机物含量、细菌总数和SDI值对生物污染的形成影响较大。通过扫描电镜、X射线能谱仪器分析污染膜,表明严重的微生物污染薄膜成网状粘连结构,污染物组成成分主要是碳氧化合物(有机物)以及一定量的镁、硅等结垢物质,可观测到的微生物有球菌、杆菌和霉菌等。