Material removal efficiency improvement by orientation control of CMP pad surface asperities

This paper presents a novel method of improving material removal efficiency in the chemical mechanical polishing (CMP) process by optimizing the surface asperity orientation with respect to polishing motion. Feret's diameter plays a key role in increasing the number of working abrasives. Based on Feret's diameter model, an optimization method is proposed for the conditioning motion of a diamond dresser against a CMP pad. The radial velocity component of the dresser on the CMP pad is maximized by considering its direction of motion based on kinematic motion simulation. In addition, the pad cut rate profile is optimized to be uniform. Analytical and experimental investigations show that the ratio of radial and tangential velocity components is improved, yielding a larger Feret's diameter and 15% increase in the material removal rate.     

螺旋直径对螺旋管泡状流截面分布特性的影响

研究了不同螺旋直径螺旋管中泡状流的相界面参数（空泡份额、相界面浓度、气泡尺寸等）的截面分布特性。通过图像法标定了电导探针的测试精度，并通过合理地处理双头电导探针，得到了螺旋管中泡状流的空泡份额、相界面浓度和气泡数量频率的定量分布云图。为进一步量化地描述相界面参数的分布特征，采用统计方法定义了截面平均参数、相界面离散系数和气泡平均聚集坐标来表征其特性。实验结果表明，随着管道旋转直径的增大，气泡截面平均空泡份额有所下降，分布范围缩小，平均聚集坐标向上方和外侧移动，气泡尺寸整体上有所下降。     

大口径管道直管段制作技术应用

针对大口径管道施工过程中存在施工周期长,施工难度大,工程成本高等问题,提出一种新型优化管段分段技术和管段组对方案。结果表明:该制作技术能保证大口管道安装施工顺利进行;有效地解决现有大口径套管安装过程中的技术难题。该方法具有创新性、实用性、可靠性等优点,在工程建设的许多领域,具有推广应用价值。     

大直径平底负压容器优化设计

通过对大直径平底负压容器平底板的设计计算,平底板计算厚度很厚。通过分析,提出了对平底板采取加强措施,从而减薄平底板计算厚度的方法。该容器在实际生产过程中性能可靠、稳定,对类似设备设计具有借鉴意义。     

动态结冰孔隙结构三维建模方法

动态结冰内部呈现多孔结构特点，这一微观孔隙结构是影响其宏观物性的关键因素，然而传统方法难以对三维孔隙结构进行定量表征。为了客观刻画结冰微观结构特征，提出了基于结冰二维图像定量信息的三维微观结构建模方法。首先，研究并确定了真实结冰尺寸与建模区域之间的比例关系，分析比例尺对分辨率和建模的影响；其次，结合二维孔隙率和孔径分布函数，提出了三维孔隙数量及其孔径的推导方法，并给定了孔隙位置随机生成方法；基于此，最终建立了以0-1矩阵形式表征结冰三维微观孔隙结构的方法。实验表明，所生成三维结冰模型的二维孔隙定量信息与实验结果吻合度较高，建模方法准确可行，为动态结冰三维刻画、微观特征参数提取和相关微观仿真模拟提供了新途径。     

纺粘非织造聚合物拉伸模型初探

为探究纺粘非织造工艺中工艺参数对纤维最终直径的影响,文章基于纺粘非织造聚合物拉伸过程,构建了纺粘非织造聚合物拉伸理论模型,并应用MATLAB对模型进行数值计算。同时,选取纺粘工艺参数中的气流初始速度、聚合物初始温度、聚合物质量流量3个因素,通过控制变量法比较观察不同方案下经过数值求解后得到的纤维直径,得出3个因素分别对纤维最终直径的影响。结果表明,气流初始速度越大,聚合物初始温度越高,聚合物质量流量越小,最终形成的纤维直径越细。     

Study on the relationship between the particle size distribution and the effectiveness of the K‐powder fire extinguishing agent

The relationship between the particle size distribution and the extinguishing effectiveness of the new K‐powder fire extinguishing agent has been studied experimentally, to explore the reason of the great extinguishing efficiency exhibited by the new K‐powder fire extinguishing agent on Class B fire (liquid fuel fire). The results of the experiment showed that the extinguishing effectiveness increased along with the decrease of the particle size distribution. In addition, a sharp discontinuity appeared around the limiting size, about 40 μm. The powder with the particle size below 40 μm exhibited highly effective extinguishing with the minimum effective extinguishing concentration C_xr = 23 g·m^?3, while the powder with the particle size above 40 μm exhibited little fire extinguishing efficiency. Compared with other fire extinguishing agents produced by different substances, the new K‐powder fire extinguishing has the bigger limiting size. That means, in the same particle size distribution, the new K‐powder fire extinguishing agent contains more highly effective powder than others contain, and is more effective.     

Numerical investigation of pressure drop characteristics of gas channels and U and Z type manifolds of a PEM fuel cell stack

Fluid flow manifold plays a significant role in the performance of a fuel cell stack because it affects the pressure drop, reactants distribution uniformity and flow losses, significantly. In this study, the flow distribution and the pressure drop in the gas channels including the inlet and outlet manifolds, with U- and Z-type arrangements, of a 10-cell PEM fuel cell stack are analyzed at anode and cathode sides and the effects of inlet reactant stoichiometry and manifold hydraulic diameter on the pressure drop are investigated. Furthermore, the effect of relative humidity of oxidants on the pressure drop of cathode are investigated. The results indicate that increase of the manifold hydraulic diameter leads to decrease of the pressure drop and a more uniform flow distribution at the cathode side when air is used as oxidant while utilization of humidified oxidant results in increase of pressure drop. It is demonstrated that for the inlet stoichiometry of 2 and U type manifold arrangement when the relative humidity increases from 25% to 75%, the pressure drop increases by 60.12% and 116.14% for oxygen and air, respectively. It is concluded that there is not a significant difference in pressure drop of U- and Z-type arrangements when oxygen is used as oxidant. When air is used as oxidant, the effect of manifold type arrangement is more significant than other cases, and increase of the stoichiometry ratio from 1.25 to 2.5 leads to increase of pressure drop by 527.3%.     

粒径对庚烷液雾爆炸场影响的数值模拟

为了研究液雾索特直径(D_(32))对爆炸参数的影响,以庚烷为对象,控制液雾总浓度不变(80 g·m~(-3)),改变液雾粒径,数值模拟了爆炸容器内庚烷(C_7H_(16))液雾粒径对爆炸参数的影响。结果表明:庚烷液雾场索特直径D_(32)为0~18.1μm时,最大爆炸压力p_(max)随D_(32)增加逐渐减小,最大值为1.01 MPa,最小值为0.9015 MPa。最大爆炸压力上升速率随D_(32)增大整体呈下降趋势,在0处达到最大值0.37571 MPa·ms~(-1),在18.1μm处达到最小值0.18439 MPa·ms~(-1),但在6.81~12μm发生反向突变,在10.1μm处达到极大值0.34217 MPa·ms~(-1),随后恢复下降趋势。液雾的径向火焰传播速度在径向距离15 cm附近突然增加,在16 cm之后剧烈下降。最大火焰速度随液雾场D_(32)不同而变化,D_(32)=10.1,12.9,18.1,6.81,0μm条件下液雾场的最大火焰速度依次降低,最大值为5.714 m·s~(-1),其后依次为1.737,1.36,1.34,1.27 m·s~(-1)。