混流式水轮机转轮简化模型焊接应力场的数值模拟

在确定混流式水轮机转轮简化模型、解决分段焊焊接热源加载问题及解决各独立实体间接触边界节点不重合的热传导问题的基础上，对转轮模型焊接过程的应力场进行了数值模拟。得到了焊接过程中纵向应力的演变规律与焊后应力场的分布情况。结果表明，焊后应力的峰值出现在叶片与上冠或叶片与下环接触面的附近的叶片上。这个结果可以较好地解释水轮机转轮叶片疲劳裂纹的产生和扩展的失效行为。     

SiO2微粉分形分布对超薄切割砂轮片拉伸性能的影响

在研究利用光敏树脂快速成型工艺制作超薄切割砂轮片时，发现往光敏树脂中添加适量的SiO2微粉，光敏树脂的拉伸强度明显增加。添加的SiO2微粉的用量的不同，在光敏树脂中形成的分形分布不同，对光固化成型后的超薄切割砂轮片的拉伸强度有不同的影响。本文通过研究SiO2微粉在光敏树脂中分布特征，根据分形理论，用分形维来描述其分布特征及其对光敏树脂光固化成型后的超薄切割砂轮片的拉伸性能的影响。     

金刚石圆锯片节块几何形状对磨损机理的影响

本文对目前石材加工领域广泛使用的具有几种典型节块结构的金刚石圆锯片的磨损机理进行了一些分析。讨论了节块几何形状和排列方式对锯片磨损的影响程度,并比较了从外观结构出发制造中凹与单纯从配方的角度制造中凹的优缺点。最后从切削加工的角度对改进金刚石圆锯片的质量提出了一些建议。     

某航空发动机第三级涡轮叶片失效分析

本文对某型号航空发动机GH4033第三级涡轮叶片榫头裂纹及断裂失效进行了分析,确定了失效模式为两类,第一类为蠕变疲劳裂纹,第二类为起始应力较大的高低周复合疲劳断裂.研究发现GH4033合金屈服强度偏低、晶界强化能力不足是叶片发生蠕变疲劳开裂的主要原因.而叶片的高低周复合疲劳断裂则主要与个别相邻叶片的叶冠间隙偏大引发的高振动弯曲应力及R处加工刀痕引发的应力集中有关.最后提出了预防叶片发生该类失效的措施.     

涡轮叶片专用探头研制与应用

介绍叶片专用探头设计原理，及其与SMART97型智能双频涡流探伤仪配套使用的情况，专专用探头在飞机发动机二级涡轮叶片探伤中具有良好应用前景。     

轴流转桨机组水力过渡过程中的轴向水推力研究

轴流转桨式机组水力过渡过程中出现的抬机现象会直接危及电站的安全稳定运行。本文通过对轴流转桨式水轮机轮叶的受力分析,根据瞬态旋转水力矩推导出轴向水推力计算模型,并将计算模型应用于草街水电站的过渡过程计算中,研究了防抬机的工程措施。     

Optimal blank design based on finite element method for blades of large Francis turbines

Metal pressing process that is widely used in industries has advantages over casting process for producing large Francis turbine blades from thick plates. Prior to the pressing process, blank design is firstly performed to determine flat blanks. The traditional trial and error approach is not applicable to blade design for Francis turbines that are not standard due to hydraulic characteristics of power plant sites. The rapid development of computing technology makes it possible to obtain optimal flat blanks by numerical modelling and simulation. In this paper, inverse finite element approach is investigated for blank design and an elasto-plastic model has been built using the well-known commercial software ANSYS. Numerical simulations for blade unfolding models with thick shell elements, solid elements and shell elements have given results with negligible differences. Unfolding tests with simple geometries have been carried out and the numerical results agree well with the analytical solutions. A large and thick shape of a Francis turbine blade for a hydropower plant has been successfully unfolded by inverse FE model. Sensibility analysis shows that the middle surface of the flat blank is independent of blade thickness. For ensuring the machining of the blade after the pressing process, a new contour is obtained by extending the boundary of the flat blank provided by the numerical model. This research may provide a useful tool for optimal blank design of Francis turbine blades.     

改进型双馈风力发电机最大功率点跟踪策略

针对传统双馈风力发电机最大功率点跟踪极值搜索策略将正弦信号作为搜索信号而很难将正弦信号从总的输出信号中区分出来的问题,提出了一种利用风湍流作为极值搜索信号的改进型最大功率点跟踪策略。该改进策略对叠加风湍流的叶尖速比和功率系数进行傅里叶变换,获得相位差信息,从而确定叶尖速比变化方向,使双馈风力发电机达到最佳运行工作点。仿真结果表明,该改进策略可控制风力发电机转速较好地跟踪风速变化,实现了额定风速以下运行区域的最大风能捕获。     

叶片测量仪系统的工作原理及其应用

本文论述了叶片测量仪的结构及工作原理。介绍了叶片测量仪硬件和软件系统及住实际工作中的应用,并探讨了叶片测量仪的发展趋势和应用前景。     

Solid Solvation Assisted Electrical Doping Conserves High-Performance in 500 nm Active Layer Organic Solar Cells

Organic solar cells (OSCs) process fascinating solution-printing capability to achieve low-cost and large-scale manufacture. However, the rapid power conversion efficiency (PCE) decay with active layer thickness enlargement inhibits the implement of OSCs’ potential advantages. To overcome the bottlenecks of PCE decay in thick active layer OSCs, the electrical doping with componential selectivity in bulk heterojunction (BHJ) film is achieved by introducing a solid solvation additive. Benefiting from the higher exciton splitting efficiency together with the longer drift (L_dr) and diffusion (L_diff) lengths, an OSC with 100 nm BHJ film demonstrates a PCE increment from 16.44% to 18.24% with prolonged dark and illuminated storage stabilities. Applying the solid solvation assisted (SSA) doping method in the OSCs with 500 nm active layer, the PCE significantly increases by 31.9%, from the original value of 11.79% to 15.55%. It further improves to 15.84% in a ternary blend thick-film device, which is the record value to the best of our knowledge. Besides, the SSA doping narrows the PCE gap between the 0.04 and 1 cm² devices. All improvements demonstrate the great potential of SSA doping for OSC commercial manufacture, since it optimizes the photovoltaic performance under all practical conditions of long-term, thick-film, and large-area.