纳米碳酸钙制备过程中添加剂作用机理探讨

采用鼓泡碳化法 ,在最佳反应温度、反应物浓度的条件下 ,考察了添加剂对产物形状及粒径大小的影响 ,得到了直径为 2 0～ 30nm、长径比在 2 0左右且分散性能良好的针状纳米碳酸钙 ,并对添加剂作用机理进行了分析。     

水轮发电机定子浮动式双鸽尾筋调整工艺浅析

水轮发电机定子采用浮动式双鸽尾筋是当今设计上较为先进的结构,是防止定子铁心变形的重要措施之一,制造厂一般会提供安装调整的工艺措施,但此工艺措施更多的是检查的标准,对如何具体操作不够详细,安装调整完全依靠施工人员的经验进行。如何有针对性的分析调整工艺中的难点和易忽略点,提出更具指导性的调整工艺,成为了一个需研究的课题。     

无氢类金刚石碳膜的研究进展

介绍了无氢类金刚石碳膜的制备方法 ,它们的机械、光学、电学性能 ,将无氢与含氢的类金刚石碳膜进行了简单比较 ,总结及探讨了它们的应用     

纺织厂建设改造中的色彩工学

提出纺织工业领域色彩量化设计的构想,给出了作为色彩量化设计依据的色彩标准体系,并从色彩的标准化、色彩的实验心理效应等方面进行了分析,针对纺织厂的“人-机-环境”系统、原有设备色彩改造以及厂区建筑的色彩效应等探讨了色彩量化设计的可行性,并结合目前纺织厂的特点提出了色彩量化设计的实施方案以及改造方法。     

Intelligent cooling structure design of "Z-pins like" silicon rods to enhance the ablation resistance of C/C-ZrC-SiC composites above 2500 °C

In order to improve the ablation resistance of C/C-ZrC-SiC composites by reducing the damage of the protective oxide layer, novel "Z-pins like" silicon rods, which were designed and fabricated by liquid phase sintering, were utilised as a dissipative agent. The microstructure evolution and thermal dissipation behaviour were investigated after ablating above 2500 °C for 300 s. After the "Z-pins like" silicon rods were implanted, the anti-ablative property of the C/C-ZrC-SiC composites was drastically improved by the dissipative thermal protection mechanism. The linear ablation rate of the "Z-pins like" silicon rod-reinforced C/C-ZrC-SiC composite was -0.28 μm/s, which is 112.72% lower than the unmodified composite. Additionally, the actual ablative temperature dropped approximately 357 °C, which enabled abundant SiO₂ to remain in the ablation centre. Furthermore, a dense SiO₂-rich oxide layer with a low oxygen diffusion coefficient is formed that covers the entire ablative surface.     

用兰纳-琼斯位能和单参数Wilson方程预测汽液平衡

根据兰纳-琼斯位能提出计算Wilson方程中同类分子间能量参数gii的一个简便方法,用于单参数Wilson方程可成功地预测二元体系气液平衡,预测精度与已有方法相当,且仅需要纯物质的Tc,Pc,Zc数据。     

针状纳米级碳酸钙工业制备新工艺

在复合结晶导向剂存在条件下，在碳化温度30～75℃、氢氧化钙初始质量分数8％～12％的高温高浓的工艺条件下，制备出了直径为20nm、长径比为10～15、粒径分布均匀的针状纳米碳酸钙。同时研究了结晶导向剂加入量、碳化温度、氢氧化钙初始浓度等对针状纳米碳酸钙的粒径和形貌的影响，并进行了工业化试验，取得良好结果。     

Spinose carbon nanotubes grown on graphitized DLC film by low frequency r.f. plasma-enhanced chemical vapor deposition

Spinose carbon nanotubes (SCNTs) are grown on silicon substrates covered with diamond-like carbon film and iron catalyst film (Fe/DLC/Si structure) by low frequency r.f. plasma-enhanced chemical vapor deposition (LFRF-PECVD). During the pre-treatment of the Fe/DLC/Si substrate, there are three processes happened, namely, iron film spalled to small islands, the DLC film graphitized, and the iron island reacted partially with the graphitized DLC (GDLC), which can be deduced from the Raman spectroscopy and SEM pictures. SCNTs film grew from C₂H₂---H₂ mixture under low plasma density. The good contact of carbon nanotube with GDLC film was acquired by the accumulation of the graphite sheets and the reaction between the iron particles and GDLC film. The homogeneous spines with the length of approximately 15 nm and the thickness of <5 nm burgeoned from the defects at the wall of carbon nanotube and distributed uniformly, which were in fact thin bent or rolled-up graphite sheets.     

巴基斯坦成品油管线工程储罐罐底外壁阴极保护

网状阳极已在储罐罐底的阴极保护系统中大量使用，保护效果明显，并得到很多应用单位的认可。本文主要结合巴基斯坦国家重点工程——成品油管线工程（White Oil Pipeline Project）具体情况，对该项目储罐罐底外壁阴极保护的设计、计算、实施情况等进行了详细介绍，并对实际保护效果和存在问题进行了分析讨论。     

单源低能离子束辅助沉积类金刚石薄膜结构及性能研究

用单源低能氩离子束辅助沉积（ＩＢＡＤ）法制备了非晶碳薄膜．氩离子能量为４００－１５００ｅＶ．膜面光滑致密，与衬底的结合力较高。用Ｒａｍａｎ，ＦＴＩＲ，ＨＲＴＥＭ，ＴＥＤ，ＳＥＭ，ＥＲＤ及ＲＢＳ研究了薄膜的形貌、结构和组分，测量了膜的电阻率、显微硬度及摩擦系数．薄膜为无定形的类金刚石（ＤＬＣ）．其中含氢约为２０５ａｔ．－％，碳原子与氢原子几乎没有形成Ｃ－Ｈ键．随着离子束能量及束流的增加，显微硬度、摩擦系数增加，电阻率减小．硬度增加是由于薄膜致密度的增加，而电阻率降低是由于膜中金刚石键（ｓｐ~３键）含量减少的缘故．