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演讲者:Na Young Kim
Na Young Kim博士是滑铁卢大学电气和计算机工程兼量子计算研究所的副教授。Kim博士研究量子电子,量子光学元件,腔量子电动力学,冷凝物质物理学和量子信息科学与技术。Her primary contributions in quantum electronics and quantum optics were published in top-tier science and engineering journals, including the direct observation of strongly correlated Tomonaga-Luttinger liquid properties from the first shot noise measurement with ballistic single-walled carbon nanotubes in Physical Review Letters, and the first observation of degenerate high-orbital condensates in artificial lattices in Nature and Nature Physics.她在2012年获得了AKPA杰出的年轻研究奖,她在国际场所举行了70多次受邀的会谈。摘要
使材料有所不同-Cumi Aerospace&Defense
cumi生产具有高化学纯度,受控特异性表面积,高度化学惰性的超细碳化物亚微米粉末,适用于工程陶瓷化合物。这种超细碳化硅粉末是Cumi高度可靠的弹道溶液的重要组成部分。我们的当代解决方案与传统的笨重和重金属装甲形成了鲜明的对比。由氧化铝和碳化硅制造而成,Cumi的轻质陶瓷弹道解决方案具有符合人体工程学,易于穿着,可定制为各种尺寸和形状。
预防性的政策和经济学的中东和...
ANSA armed non-state actor APC armoured personnel carrier BMD ballistic-missile defence EDT emerging and disruptive technologies FMF Foreign Military Financing GBAD ground-based air defence GCC Gulf Cooperation Council GERD Grand Ethiopian Renaissance Dam IFV infantry fighting vehicle IPP Industrial Participation Policy ISR intelligence, surveillance and reconnaissance LHD amphibious assault ship MBT main battle tank MCM mine countermeasures MoU memorandum of understanding MRL multiple rocket launcher MRO maintenance, repair and overhaul MTCR Missile Technology Control Regime NDS National Development Strategy OCO overseas contingency operations R&D research and development SRBM short-range ballistic missiles THAAD Terminal High Altitude Area Defense UAV uninhabited aerial vehicle WMD weapons of mass destruction
装甲钢的机械冶金学 - DTIC
装甲钢的机械冶金学 执行摘要 装甲钢历来在应对各种战场威胁时都具有最佳的弹道性能,并且仍然是极具竞争力的装甲材料。然而,人们对装甲钢的弹道和结构性能最重要的因素了解甚少。本报告旨在纠正这一问题,并为装甲设计师和装甲车辆能力获取和质量保证工程师提供概述参考文件。解释了装甲钢的机械性能(特别是其机械冶金学)与弹道性能之间的关系,其中这种性能主要由材料强度、硬度和高应变率行为决定。还讨论了其他重要主题,例如韧性;绝热剪切现象;结构开裂;双硬度和电渣重熔装甲钢,以及装甲钢规格和标准。人们认为,装甲钢不仅会继续改进,而且在未来很长一段时间内仍将主导车辆装甲设计。
