火焰原子吸收分光光度法测定鱼内脏及河流底泥中的铜

采用火焰原子吸收分光光度法测定鱼内脏及河流底泥中的铜。鱼内脏经组织捣碎机捣成匀浆后，加硝酸消解；底泥则经氢氟酸和高氯酸消化。该方法具有灵敏度高，精密度和回收率较好等特点。     

曲面零件在拉深过程中内皱时刻及影响因素

进一步推导了曲面零件悬空区上的应力分布及临界失稳公式。然后通过计算机编程 ,求解了临界失稳方程 ,得到了拉深系数、相对锥顶半径、相对圆角半径、材料相对厚度与临界失稳时刻间的关系曲线 ,并对曲线变化的规律进行了分析。     

煤烟型大气污染解决方法

重点介绍了新型燃煤工艺——水平火焰无烟工业炉及其特点，并提出排烟尾气处理的资源化方案。     

应用照相法估算高架点源的污染物浓度

应用流体力学基本原理，导出了烟流扩散新模式，讨论了利用照相法估算烟流污染物浓度的方法及步骤，以高架点源烟流扩散为例，应用新模式结合照相法估算烟流污染物浓度，并与利用高斯模式计算的烟流污染物浓度进行比较，结果表明两者吻合较好．     

旋轮形状对杯形件单道次拉深旋压成形的影响

对杯形件单道次拉深旋压成形过程进行了分析,重点讨论了具有两个圆弧工作面的旋轮形状对成形过程的影响.研究结果表明,不同的旋轮形状不仅改变了旋压力p的大小,并且由于其对厚度应变ε的分布影响较大而造成整个旋压过程变形特征的改变,从而导致在工件的不同部位产生破裂.     

填埋场垃圾堆体平面压实工程试验研究

原生垃圾密度很小，为提高填埋垃圾堆体密实度、延长填埋场使用寿命，对填埋垃圾进行压实处理很重要。本文通过现场工程试验对影咱填埋垃圾堆体平面压实效果的主要因素进行了系统研究。实验结果表明：为取得最佳的垃圾堆体平面压实效果，最佳垃圾摊铺厚度在0.5m—0.7m之间，最佳机械行程次数为3次，增加碾压次数有利于提高垃圾堆体密实度，垃圾最佳含水率在30％——50％之间。     

1420Al-Li合金特深模锻件偏心问题分析及对策

对 14 2 0Al Li合金特深模锻件在实际生产 (反挤压 )过程中所产生的偏心问题进行了分析 ,分析表明 ,在上下的方向上 ,润滑不均将使冲头产生弯曲变形和使挤压筒上抬 ,致使锻件产生明显的偏心 ;在左右方向上 ,冲头的轴线相对于挤压筒轴线左偏 ,是产生偏心的主要原因。文中还提出了纠偏的措施。     

水中微量铝的间接原子吸收法测定

在ＨＡｃ－ＮａＡｃ缓冲溶液（ｐＨ４．５）体系中，利用（１－（２－萘酚（ＰＡＮ），Ａｌ＾３＾＋与Ｃｕ＾２＾＋－ＥＤＴＡ发生定量交换反应，用氯仿萃取出Ｃｕ＾２＾＋－ＰＡＮ，用原子吸收法测定水中的Ｃｕ＾２＾＋，以间接测定ＡＬ＾３＾＋。方法的最佳线性范围为０．１－１．０ｍｇ／Ｌ，最低检出浓度为０．１ｍｇ／Ｌ；测定河水，饮用水，地下水中的Ａｌ＾３＾＋，其回收率在８５．０％－１０９％之间，变异系数为１．５％－     

Prevention of gasoline vapor explosions in portable fuel containers

Portable Fuel Containers (PFCs) made for consumer use can, under unusual circumstances, develop a flammable atmosphere in the container headspace. In order to prevent an inadvertent ignition from causing flame propagation into this headspace and a subsequent explosion or flame jetting, PFC manufacturers are developing prototype Flame Mitigation Devices (FMDs) for installation in the PFC. A test method is described in this paper to determine if the installed FMD will indeed prevent flame entry into the PFC in a high-challenge flame propagation scenario. The method entails the use of a butane-air mixture ignited in a 5 cm diameter, 12 cm long tube attached to either the container neck or a spout on the container neck. Two concept FMD designs have successfully prevented repeated attempts at flame propagation into the PFC and have also produced encouraging results in tests for fuel flow restriction, duel dispensing nozzle friction, and prolonged fuel exposure. Versions of these tests are currently being promulgated in a draft ASTM standard on PFC FMDs.     

Experimental study on explosion inhibition by heptafluoropropane and its synergy with inert gas

The inhibition effect of heptafluoropropane (CF₃CHFCF₃) on methane explosions under different inhibitor concentrations in a closed vessel was studied. A high-speed camera and a pressure sensor were adopted respectively to record flame propagation characteristics and pressure data. Results indicate that the relationship between flame propagation and pressure rising was correlated. As the equivalent ratio (ϕ)≤1, the pressure presented a trend of rising firstly and then decreasing with increasing CF₃CHFCF₃ concentration, and it was found that there existed a critical concentration for pressure decrease. As ϕ > 1, the pressure exhibited a decreasing trend. Although the pressure appeared to seemingly increase, the moment that the pressure began to rise (t_rise) and the moment that the maximum explosion overpressure appeared (t_Pmax) were obviously delayed. The average rate of pressure rise ((dP/dt)_ave) was decreased as the concentration of CF3CHFCF3 increased. It indicates that CF₃CHFCF₃ can effectively reduce the explosion reaction rate. The critical concentration of CF₃CHFCF₃ for complete inhibition was determined. Meanwhile, the synergy of CF₃CHFCF₃-inert gas can improve the inhibition effect. Compared with CF₃CHFCF₃–N₂, the synergy of CF₃CHFCF₃–CO₂ presented a better inhibition effect, and the inhibition effect was increased with increasing inert gas concentration. And the mechanisms of physical and chemical effects on explosion inhibition were analyzed.