ebeam电子束在标签印刷市场的应用

在2017年欧洲国际标签展会上，隶属于瑞士上市公司COMET集团的ebeam事业部荣获“2017全球标签大奖”4个重量级奖项之一的“可持续发展大奖”。两个月之后，在中国印刷技术协会凹版印刷分会2017包装印刷年会暨陕西北人50周年庆典活动中，ebeam事业部又联合陕西北人推出了第一台国产EB电子束固化CI胶印机。

ebeam Technologies:以电子束固化改变数字印刷

2017年9月,在比利时布鲁塞尔举办的Labelexpo Europe 2017展会同期,隶属于瑞士上市公司COMET集团公司的ebeam Technologies事业部出品的紧凑型固化单元荣获了'2017标签工业全球大奖'4个重量级奖项之一的'可持续发展大奖',该奖项表彰了ebeam在研发适用于窄幅轮转印刷机的紧凑型电子束固化系统方面的努力。

交互式电子会商室的研究

通过分析现代会商室的模式及优缺点,采用大屏幕显示,结合eBeam平板电脑等现有的手笔自然交互工具,加入最新研究的非接触式激光笔交互手段,提出了交互式电子会商室的新型模型.新模式把会商室内参与者合理划分为近、中、远距离三个不同空间,分别采用eBeam、激光笔、平板电脑三种交互工具实现交互式会商,并可随时变换角色.新模式能够使得会商室交流变得更加直观和高效.

The 2017 IRDS Lithography Roadmap

Technology roadmaps have been a part of the semiconductor industry for many years.The first roadmap was Moore’s law,which started as an empirical observation that competitive forces then turned into a prediction that became an industry roadmap.Then the ITRS roadmap was developed and for many years was used by leading edge semiconductor producers to drive new technology they needed.Now there is the IRDS roadmap,which projects semiconductor end user requirements and develops a technology roadmap based on those requirements.The 2017 IRDS roadmap was just released.To prepare the roadmap,we received input from experts around the world.The roadmap predicts that the requirements of high performance logic will drive the development of different device structures in logic chips.Memory technology will also advance but is more focused on cost than high performance logic is.Because of this,there may be a split in the patterning roadmaps for different types of devices.Logic will adopt EUV and its extensions,while flash memory will consider nanoimprint.Directed self-assembly and direct write e-beam are also being developed.DSA has the potential to improve CD uniformity and lower costs.Direct write e-beam promises to make personalization of chips more feasible.DRAM memory will trail logic in critical dimensions and will adopt EUV when it becomes cost effective.The lithography community will both have to make EUV work and overcome the challenges of randomness in CDs and resist performance,while memory will try to make nanoimprint a reliable and low defect method of patterning.Long term,logic is expected to start focusing on 3D architectures in the late 2020’s.This will put a tremendous stress on the yield of patterning processes and on reducing the number of process steps that are required.It will also put more focus on hole type patterns,which will become one of the key patterning challenges in the future.

会议演示解决方案的最新创意

3M投影产品部,在上海举行的Infocomm上第一次向中国用户展示了演示会议系统-Wall Display。3M Wall Display将交互演示所需要的多种设备集成于一体,包括高增益纯平显示屏幕,高清晰多媒体数据投影机、数字白板和高保真音频系统。用户所需要做的仅仅是连上一台电脑,

半潜式平台钻机塔形井架的整体稳定性

较之于陆地井架,浮式平台钻机井架在复杂海洋环境条件下还会受到平台运动引起的惯性载荷、重力的横向分力以及海洋风载,井架在恶劣的海洋环境下保持稳定具有重要的意义。以南海某半潜式平台的运动为背景,研究配套的塔形井架在平面内的稳定性,通过定义等效抗弯刚度将空间变截面缀条格构式的井架等效为分段等截面实腹式悬臂梁,利用能量法建立井架平面内稳定性分析模型,对比理论结果和有限元数值结果验证理论模型的有效性。研究了顶驱和游车的位置对井架变形的影响,在最不利工况条件下研究了井架的整体稳定性。结果表明井架具有较好的平面内稳定性,在最大设计钩载以及强度范围内不会发生整体失稳。

Deleterious effects of electron beam irradiation on development and reproduction of tomato/potato psyllids, Bactericera cockerelli

The potato/tomato psyllid Bactericera cockerelli causes serious damage to several solanaceous crops by direct feeding and vectoring Candidatus Liberibacter solanacearum,a bacterial pathogen.Electron beam(eBeam)irradiation is an environmentally friendly,chemical-free alternative method that is increasing in use for disinfestation of insect pests.We hypothesize that this irradiation technology will have detrimental effects on potato psyllid and thus impede its disease vectoring.To this end,we explored the effects of eBeam treatment ranging from 50 to 500 Gy on survival,development and reproduction of this pest.Impact on psyllids was apparently dose-dependent.When irradiated at 350 Gy,eggs could not hatch,1st instar nymphs failed to emerge,and although a small portion of irradiated 5th instar nymphs survived,the emerged adults were mostly deformed.Abnormality in eclosed adults suggests harmful effects of eBeam on metamorphosis.Reproduction was seriously impaired when female psyllids were exposed to eBeam at the 5th instar nymphal or young adult stage,presumably due to inability to form oocytes.In addition,reciprocal crosses between irradiated and untreated psyllids indicated that female psyllids were more radiosensitive than males to eBeam.Taken together,these findings indicate that eBeam negatively impacted potato psyllid development and reproduction,which would inevitably compromise its disease transmission capacity.A dose of 350 Gy can be considered as a reference dose for effective control of potato psyllids.