影响搓丝板寿命的因素分析

在生产实践的基础上 ,通过一系列工艺表明搓丝板的内部组织 ,齿形加工及热处理质量对其寿命起决定性作用。     

Evaluation of design alternatives for sewing scissors with respect to hand performance,discomfort and usability

The effects of three re-designed models of sewing scissors on hand performance measures, discomfort and usability were investigated, and the results were compared with those of conventional scissors. Adjustments were made to the scissors handle with emphasis on more neutral wrist postures (bent handle - model A), correction of the thumb's position and movements (model B) and reducing hand/finger discomfort (model C) while working with the tool. The results showed some improvements in hand performance, muscular effort, usability and discomfort with model B compared to the conventional model. Better hand performance and usability and lower discomfort were recorded with model C compared to the conventional model. The results suggest that the correction of the thumb's position and movement (model B) or even reduced hand/finger discomfort (model C) are perhaps more important considerations in scissors design than improved wrist posture (model A) for improving users' performance and usability of the tool.     

A study of the blast wave shape from elongated VCEs

Elongated congestion patterns are common at chemical processing and petroleum refining facilities due to the arrangement of processing units. The accidental vapor cloud explosion (VCE) which occurred at the Buncefield, UK facility involved an elongated congested volume formed by the trees and undergrowth along the site boundary. Although elongated congested volumes are common, there have been few evaluations reported for the blast loads produced by elongated VCEs. Standard VCE blast load prediction techniques do not directly consider the impact of this congested volume geometry versus a more compact geometry.This paper discusses an evaluation performed to characterize the blast loads from elongated VCEs and to identify some significant differences in the resulting blast wave shape versus those predicted by well-known VCE blast load methodologies (e.g., BST and TNO MEM). The standard blast curves are based on an assumption that the portion of the flammable gas cloud participating in the VCE is hemispherical and located at grade level. The results of this evaluation showed that the blast wave shape for an elongated VCE in the near-field along the long-axis direction is similar to that for an acoustic wave generated in hemispherical VCEs with a low flame speed. Like an acoustic wave, an elongated VCE blast wave has a very quick transition from the positive phase peak pressure to the negative phase peak pressure, relative to the positive phase duration. The magnitude of the applied negative pressure on a building face depends strongly on the transition time between the positive and negative phase peak pressures, and this applied negative phase can be important to structural response under certain conditions. The main purpose of this evaluation was to extend previous work in order to investigate how an elongated VCE geometry impacts the resultant blast wave shape in the near-field. The influence of the normalized flame travel distance and the flame speed on the blast wave shape was examined. Deflagration and deflagration-to-detonation transition regimes were also identified for unconfined elongated VCEs as a function of the normalized flame travel distance and flame speed attained at a specified flame travel distance.     

Detonation transition criteria from the interaction of supersonic shock-flame complexes with different shaped obstacles

The present study is an experimental investigation of the last stages of the deflagration-to-detonation transition. A fast flame following a lead shock was generated by passing a detonation wave through a perforated plate. The shock flame complex then interacts with an obstacle of different shape. We study the influence of the obstacle shape on the transition mechanism to a detonation. The obstacles studied are a single round or square obstacle, a flat plate, a C-shaped and an H-shaped obstacle. The experiments were performed in a thin transparent channel permitting high speed schlieren visualization. Stoichiometric propane-oxygen was investigated at sub-atmospheric conditions. For each obstacle configuration, the initial pressure was changed to modify the flame burning velocity and the Mach number of the leading shock. The burning velocity prior to the interaction was measured experimentally from the displacement velocity of the flame in the videos. This required estimating the speed of the gas ahead of the flame. A linear correction to the speed immediately behind the lead shock was applied using the shock change equations and the measured pressure gradient behind the lead shock in order to account for the non-steadiness of the lead shock and viscous losses to the walls. Three main findings were that the obstacle shape had a minimal influence on the critical flame strength required for transition, although obstacles with a forward facing cavity were able to suppress the transition by isolating the re-initiation event inside the cavity. The main transition mechanism for all geometries was the enhancement of the flame burning velocity through the flame interaction with the shock reflected on the obstacle leading to Richtmyer-Meshkov instability. Finally, it was found that the flame burning velocity of the initial flame required for transition was closely approximated by the Chapman-Jouguet burning velocity. Consistent with the visual observations, this supports the view that transition is favored when the flame is in phase with the acoustic waves, and strong internal pressure waves can be amplified.     

脉冲载荷形状对锥壳瞬态响应的影响

在进行锥壳结构瞬态响应试验之前，需要考虑各种因素对试验结果的影响，而所要施加的脉冲载荷形状是要考虑的重要因素之一，本文利用数值模拟方法研究了锥壳在侧向脉冲载荷作用下，脉冲形状对结构响应的影响，分析表明，在作用冲量相同，作用时间一致且远小于结构响应周期的条件下，脉冲形状对壳体的瞬态响应结果没有明显的影响。     

基于风洞实验的冷却塔空腔区范围影响因素研究

目的基于火电厂采用"烟塔合一"排烟方式时可能由于污染物下洗造成"空腔区"内地面高浓度等问题,分析空腔区范围,以科学设置环境防护距离。方法采用相似理论,将10个"烟塔合一"火电厂及地形按几何比缩小至风洞实验室内,通过测量冷却塔后方湍流度,并对比背景湍流度的方法,分析不同冷却塔形状以及不同下垫面条件下冷却塔空腔区的尺寸。结果空腔区的高度、宽度与冷却塔高宽比存在正相关性,山地地形更有利于湍涡耗散,而使空腔区范围较平坦地形更小,厂区内大型建筑物位置会对冷却塔空腔区的范围产生影响。试验分析得出,冷却塔空腔区范围基本在冷却塔高度的2倍以内,高宽比越大,则空腔区范围越小,地形越复杂,空腔区范围越小。结论火电厂采用"烟塔合一"排烟方式时,建议优先选择高宽比大的塔型,以降低排烟冷却塔对周围环境影响的可能性。     

Pd/silicalite-1: An highly active catalyst for the oxidative removal of toluene

Catalytic combustion is thought as an efficient and economic pathway to remove volatile organic compounds, and its critical issue is the development of high-performance catalytic materials. In this work, we used the in situ synthesis method to prepare the silicalite-1 (S-1)-supported Pd nanoparticles (NPs). It is found that the as-prepared catalysts displayed a hexagonal prism morphology and a surface area of 390−440 m²/g. The sample (0.28Pd/S-1-H) derived after reduction at 500°C in 10 vol% H₂ showed the best catalytic activity for toluene combustion (T_50% = 180°C and T_90% = 189°C at a space velocity of 40,000 mL/(g·hr), turnover frequency (TOF_Pd) at 160°C = 3.46 × 10⁻³ sec⁻¹, and specific reaction rate at 160°C = 63.8 µmol/(g_Pd·sec)), with the apparent activation energy (41 kJ/mol) obtained over the best-performing 0.28Pd/S-1-H sample being much lower than those (51−70 kJ/mol) obtained over the other samples (0.28Pd/S-1-A derived from calcination at 500°C in air, 0.26Pd/S-1-im derived from the impregnation route, and 0.27Pd/ZSM-5-H prepared after reduction at 500°C in 10 vol% H₂). Furthermore, the 0.28Pd/S-1-H sample possessed good thermal stability and its partial deactivation due to CO₂ or H₂O introduction was reversible, but SO₂ addition resulted in an irreversible deactivation. The possible pathways of toluene oxidation over 0.28Pd/S-1-H was toluene → p-methylbenzoquinone → maleic anhydride, benzoic acid, benzaldehyde → carbon dioxide and water. We conclude that the good dispersion of Pd NPs, high adsorption oxygen species concentration, large toluene adsorption capacity, strong acidity, and more Pd⁰ species were responsible for the good catalytic performance of 0.28Pd/S-1-H.     

神经网络法应用于酚类化合物对青海弧菌毒性的预测

青海弧菌对有毒酚类化合物具有强烈的敏感性,为建立酚类衍生物对青海弧菌毒性的定量结构-活性相关性(QSAR)模型,分析了16种酚类衍生物的分子结构与对青海弧菌毒性之间的相关关系,计算了酚类衍生物的分子连接性指数和分子形状指数,并优化筛选了分子连接性指数的1阶路径指数(~1χ)和分子形状指数的2阶特征指数(K_2)及1阶和2阶指数乘积值(K_4),用这3种指数与对青海弧菌的毒性进行多元回归分析,多元回归方程的决定系数R~2=0.971。为进一步提高预测精度,将这3种分子结构参数作为神经网络的输入变量,毒性值作为输出变量,采用3:2:1的网络结构,通过反向传播(BP)神经网络法获得满意的QSAR预测模型,总的相关系数r为0.996,计算得到的毒性预测值与实验值较为吻合,平均相对误差仅为1.98%,结果表明该模型具有良好的预测酚类衍生物毒性的能力,可以看出神经网络方法对酚类化合物发光菌毒性预测比多元线性回归方法的统计学意义更加明显。     

障碍物对油气-空气混合气体泄压爆炸火焰传播特性影响

为了研究障碍物对油气泄压爆炸火焰传播特性的影响规律,进行了不同数量障碍物工况下的对比实验,并利用纹影仪和高速摄影仪记录了火焰传播过程,针对障碍物对火焰形态、火焰锋面位置及火焰传播速度的影响规律进行了研究,结果表明:圆柱体障碍物会导致油气泄压爆炸火焰形态产生褶皱和弯曲变形,诱导层流火焰向湍流火焰转变,加速火焰的传播,对油气泄压爆炸火焰的初始传播形态有显著影响;随着障碍物数量的增多,火焰锋面传播距离点火端的最大距离增大,但到达最远距离的时间减少;障碍物能够增强火焰的传播速度,尤其对障碍物下游火焰影响最为显著,随着障碍物数量的增多,火焰传播的最大速度也随之增大,但达到最大火焰传播速度的时间却随之减少;障碍物的存在增大了油气泄压爆炸过程外部爆炸压力,并且随着障碍物数量的增多,外部爆炸压力峰值增长幅度增大。