微米SiCp/Cu基复合材料的组织与性能

以微米级(14／μm)SiCp和微米级(10μm)铜粉为原料，采用冷压烧结方法成功制备出了SiCp／Cu基复合材料，并进行了热挤压加工，研究了组织、导电性能、硬度、拉伸性能和耐磨性能。结果表明：SiCp分布均匀；在SiCp含量为1％vol～10％vol时，SiCp／Cu基复合材料的导电率为95．9％～82．2％IACS．硬度为84．5～89．2HV0.2，抗拉强度为243．3～166．6 MPa，伸长率为50．6％～23．0％；5vo1％SiCp／Cu基复合材料具有良好的耐磨性能，其磨损失重分别是QSn 6．5-0．4的1／18．3和T3纯Cu的1／24.7。     

焊接齿轮的制造

本文对焊接齿轮的特性,结构型式和焊缝尺寸的确定,作了简要介绍,并对不同结构焊接齿轮的制造工艺及质量进行了重点阐述。     

Fabrication and structure characterization of ITO transparent conducting film by sol-gel technique

Using In（NO3）3·5H2O and acetylacetone as raw materials and anhydrous SnCl4 as dopant, the transparent conducting indium tin oxide（ITO） films were prepared by sol-gel and dip-coating technique. The phase transformation, structure properties and physical properties （sheet resistance and transmittance） of the films were investigated by DTA-TG, XRD, SEM, four-probe method and UV-Vis spectrometry. The results indicate that it is feasible to fabricate 1TO films on the quartz substrates by sol-gel technique, and the ITO films are formed by accumulating of particles with the size of several decades of nanometers. The prepared ITO film has cubic bixbyite structure, and （111） is its preferred plane. After five-times dip-coating, the 1TO film has a thickness less than 150 nm, a sheet resistance of 110Ω/□, a resistivity of 1.65×10^-3Ω· cm and a transparency of 90% .     

先进的模具加工设备与技术简介

介绍某厂近期引进的三套先进的模具加工、检测装备与技术：模具喷砂清理机，模具三维检测仪,模具加工中心.     

Direct laser fabrication of thin-walled metal parts under open-loop control

Direct laser fabrication (DLF) is an advanced manufacturing technology, which can build full density metal parts directly from CAD files without using any modules or tools. The investigation on the fabrication of thin-walled parts of nickel alloy using open-loop DLF process is introduced in this paper. The experimental setup consisted of a CO₂ laser, a 3-axis CNC table, a coaxial powder nozzle and a powder recycler. The 3D-CAD file of a thin-walled metal part was converted into the STL file format and imported into software HUST-RP to generate ‘pseudo-random’ scanning paths of laser beam. The influence of process parameters on the build height of thin-walled metal parts was studied by 1–10 layered single-bead stacks of nickel alloy. The result shows that the interference factors which affect the build height of thin-walled metal parts occur randomly during the process. For open-loop DLF process, thin-walled metal parts can achieve much better shape quality if the process parameters are suitable. Multilayer single-bead walls were built up with different scanning velocity to obtain the optimal process parameters of thin-walled parts of nickel alloy. It shows that thin walls of nickel alloy with uniform height can be built up layer by layer in a certain range of specific energy. However, it is difficult to control the build height of complex thin-walled metal parts in an accurate manner just using optimal parameters. A special coaxial powder nozzle was designed in this paper. In a certain range, the deposition thickness of the nozzle is nearly linearly increased with increase in the standoff distance between the powder focusing point of the nozzle and the deposition substrate. By means of the nozzle, a novel method to control the build height of thin-walled metal parts using open-loop DLF process was introduced. The difference in build height of a thin-walled part can be compensated automatically in one or several layers during the process. It is proved that the build height of a thin-walled metal part can be accurately controlled in theory using the nozzle. A complex single-bead part of nickel alloy whose geometry was designed to be the well-known Chinese ‘FU’ was fabricated and explained in this paper. The result shows that the shape quality of the sample is quite good, and actual build height of the sample is 53.54 mm while the designed value is 54 mm.     

我国铝业发展现状的探讨

介绍了我国电解铝行业发展的良好形势,指出了我国氧化铝生产存在投资过度的问题,指出了发展铝材深加工是提高市场竞争能力的必由之路。总结了促进我国铝业良性发展的几点措施。     

Review of roll-to-roll fabrication techniques for colloidal quantum dot solar cells

Colloidal quantum dots (CQDs) are of great interest to photovoltaic (PV) technologies as they possess the benefits of solution-processability, size-tunability, and roll-to-roll manufacturability, as well as unique capabilities to harvest near-infrared (NIR) radiation. During the last decade, lab-scale CQD solar cells have achieved rapid improvement in the power conversion efficiency (PCE) from ~1% to 18%, which will potentially exceed 20% in the next few years and approach the performance of other PV technologies, such as perovskite solar cells and organic solar cells. In the meanwhile, CQD solar cells exhibit long lifetimes either under shelf storage or continuous operation, making them highly attractive to industry. However, in order to meet the industrial requirements, mass production techniques are necessary to scale up the fabrication of those lab devices into large-area PV modules, such as roll-to-toll coating. This paper reviews the recent developments of large-area CQD solar cells with a focus on various fabrication methods and their principles. It covers the progress of typical large-area coating techniques, including spray coating, blade coating, dip coating, and slot-die coating. It also discusses next steps and new strategies to accomplish the ultimate goal of the low-cost large-area fabrication of CQD solar cells and emphasizes how artificial intelligence or machine learning could facilitate the developments of CQD solar cell research.     

太赫兹带阻滤波器工艺研究

以中心工作频率130 GHz、衰减深度为-40 dB的太赫兹带阻滤波器为制备对象,介绍了其在制备过程中蒸镀、光刻、显影及湿法刻蚀等工艺步骤中的一些技术细节。制备得到的太赫兹滤波器加工误差<±3 μm,考察了加工误差对滤波器传输性能的影响,该加工误差在可接受范围。为进一步验证工艺的可靠性,使用空间测量装置获得了滤波器样品传输性能,测试结果与设计值吻合度较好。最后,探讨了本工艺推广至更高频率器件的适用性及需要改进之处。文中介绍的硅基太赫兹器件加工工艺适用于电子器件与光子器件的融合发展。     

Single-mode fluorotellurite glass fiber

By multi-stage rod-in-tube fiber drawing process, a single-mode fluorotellurite glass fiber was fabricated and reported for the first time. Benefiting from chemical–physical dehydration process to remove water and OH⁻ groups, the propagation loss was decreased to 1.9 dB/m at 1550 nm and the infrared window is extended from 2.8 μm to 4.2 μm, i.e. a new kind of mid-infrared glass fiber. The fiber is with a small core of 3.52 μm in diameter to meet single-mode condition, and the effective nonlinear parameter γ was estimated to be 236.7 W⁻¹ km⁻¹ at 1550 nm by using continuous-wave self-phase modulation method. © 2015 Elsevier B.V. All rights reserved.