Feasibility study of large-scale mass customization 3D printing framework system with a case study on Nanjing Happy Valley East Gate

At present, the development and implementation of digital transformation are the keys to promoting high-quality industry development. The new digital fabrication method of robotic 3D printing is a research area being studied by many to tackle the issue of the declining productivity of traditional construction methods. Although many studies have been done, most of the current 3D printing projects are facing limitations in terms of scale. In order to bridge the gap, this article proposed a mass customization 3D printing framework system for large-scale projects. This article discusses how mass customization is made possible through the joint operation of the FUROBOT software and 3D printing hardware. By taking the east gate of Nanjing Happy Valley Plaza as a case study, the article demonstrates and studies the feasibility of the large-scale mass customization 3D printing framework system.     

Nickel phosphonate MOF as efficient water splitting photocatalyst

A novel microporous two-dimensional(2D)Ni-based phosphonate metal-organic framework(MOF;denoted as IEF-13)has been successfully synthesized by a simple and green hydrothermal method and fully characterized using a combination of experimental and computational techniques.Structure resolution by single-crystal X-ray diffraction reveals that IEF-13 crystallizes in the triclinic space group Pi having bi-octahedra nickel nodes and a photo/electroactive tritopic phosphonate ligand.Remarkably,this material exhibits coordinatively unsaturated nickel(II)sites,free-P0₃H₂and-P0₃H acidic groups,a C0₂accessible microporosity,and an exceptional thermal and chemical stability.Further,its in-deep optoelectronic characterization evidences a photoresponse suitable for photocatalysis.In this sense,the photocatalytic activity for challenging H₂generation and overall water splitting in absence of any co-catalyst using UV-Vis irradiation and simulated sunlight has been evaluated,constituting the first report for a phosphonate-MOF photocatalyst.IEF-13 is able to produce up to 2,200 fimol of H₂per gram using methanol as sacrificial agent,exhibiting stability,maintaining its crystal structure and allowing its recycling.Even more,170μmol of H₂per gram were produced using IEF-13 as photocatalyst in the absence of any co-catalyst for the overall water splitting,being this reaction limited by the 0₂reduction.The present work opens new avenues for further optimization of the photocatalytic activity in this type of multifunctional materials.     

Strain rate dependency and fragmentation pattern of expanding warheads

For the characterization of the behaviors of a metal material in events like expanding warheads, it is necessary to know its strength and ductility at high strain rates, around 104e105/s. The flyer plate impact testing produces the uniform stress and strain rates but the testing is expensive. The Taylor test is relatively inexpensive but produces non-uniform stress and strain fields, and the results are not so easily inferred for material modeling. In the split-Hopkinson bar(SHB), which may be used in compression, tension and torsion testing, the strain rates never exceeds 103/s. In the present work, we use the expanding ring test where the strain rate is 104e105/s. A streak camera is used to examine the expanding ring velocity, and a water tank is used to collect the fragments. The experimental results are compared with the numerical simulations using the hydrocodes AUTODYN, IMPETUS Afea and a regularized smooth particle(RSPH) software. The number of fragments increases with the increase in the expansion velocity of the rings. The number of fragments is similar to the experimental results. The RSPH software shows much the same results as the AUTODYN where the Lagrangian solver is used for the ring. The IMPETUS Afea solver shows a somewhat different fragmentation characteristic due to the node splitting algorithm that induces pronounced tensile splitting.     

实时GPS定位中的自适应故障检测

给出了一种GPS卡尔曼滤波的自适应方案,该方案能根据GPS导航中变化的动态来估计协方差.当增强卡尔曼滤波器时,方案可得到更精确的定位修正.此外,也可将此估计方法用于完整监测,以增强故障检测的阈值选择.采用模拟数据验证了提出方法的正确性.     

高性能纺织品整理方法及其应用

1　加工方法1 1　涂层纺织品的涂层可在多种设备上完成 ,其中最常用的是使用刮刀、辊筒、凹辊、粘辊和背辊。用于生产给定的最终产品时 ,每一种设备都有其优缺点 ,所以在选择时 ,我们应该对以下几点进行认真考虑 :纺织品的性质 ;涂层剂的流变性及其他性质 ;涂层剂是泡沫型的还是浆料型的 ;涂层剂在常温下还是在热熔条件下使用。另外 ,非常值得我们考虑的还有涂层剂的用量 ,以及涂层剂是用在织物的表面 ,还是尽量充满到织物结构内。所有这些都要由最终产品的性质及所要求具有的特种功能来确定。当前 ,除了涂层剂及织物的普通性能外 ,人们还…     

用仿真工具优化车辆动力系统(一)

在本文的第一部分，介绍了一种理想的车辆动力系统的计算机辅助开发过程。它显示了现代仿真技术在产品持续发展过程中的作用，该技术采用硬件回路作非在线的仿真，并通过现代化的试验手段对车辆进行匹配。特别重要的是提供了将电控变速器和发动机控制单元综合的可能性。接着是在线仿真在诸如发动机和变速器模式方面的应用和发展，它是上述开发过程的基础。根据上述的方法论，本文论述了仿真技术已取得的成绩和将来的应用可能性。     

CONTOP(R)--钢铁工业和报废汽车处理业的经济回收方案

1 前言 CONTOP~R工艺最初是由德国科隆的KHDHumboldt Wedag AG公司针对有色金属工业而开发的。两台迄今为止最大的CONTOP~R熔炼旋风炉建于美国德克萨斯的ASARCO公司,每台能力为32t/h铜精矿混和料。 1998年,奥钢联工程技术公司(VAI)获得了     

维斯麦港的新式炼铅厂

一座新的年产8万吨铅(粗铅含铅)的基夫赛特法炼铅厂正在维斯麦港冶金联合企业地区兴建。它属于意大利SAMIM合资公司。在撒丁岛的西海岸。为遵守按欧洲共同体条例制定的为保护生产区工人免受金属铅及其离子化合物毒害的新条例而设计了这座工厂。施工期间做了许多改进,主要是新炉子的炉型和节能,即利用工艺过程的热烟气生产高压蒸汽送去发电和生产预热空气用作工厂的干燥介质。该厂与附近的新厂连成一体。即与一座年产8万吨电锌的新厂,一座日产700吨硫酸的新厂(硫酸厂处理新式炼铅厂和电锌厂产生的烟气)编成联合企业。预计炼铅厂子1985年底建成,1986年初投产。     

脉冲转发式干扰系统的延时控制

本发明论述供脉冲转发式干扰机使用的可变延时装置。雷达距离跟踪系统可用这样的方法来干扰,即对于所接收的雷达系统的每一个脉冲,干扰机发射一相似的干扰脉冲,只要干扰脉冲比目标回波脉冲强得多,并且相对于目标回波脉冲稍有延迟。而且,通过增加干扰脉冲(它构成假目标)的时延可以使距离跟踪系统跟随此假目标直到丢失真目标。如果距离跟踪系统是火控系统的一部分,则被控武器要么不开火,要么就向假目标开火。在目前完成这种干扰的设备中,给一固定周期设置了一个起始延迟,在起始延迟之后,