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膨胀夹头式自动进给钻应用技术分析
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作者 郗崇智 董卫萍 +2 位作者 幸锐 王伟 邢欣 《工具技术》 北大核心 2024年第8期103-107,共5页
随着航空装备的快速发展,传统手工制孔方式已经不能满足现代化飞机装配制孔需求,根据飞机装配典型应用工况,在保证孔径、锪窝精度前提下,先进高效的半自动制孔技术成为急需突破的关键技术。本文从自动进给钻的实际应用出发,研究了最新... 随着航空装备的快速发展,传统手工制孔方式已经不能满足现代化飞机装配制孔需求,根据飞机装配典型应用工况,在保证孔径、锪窝精度前提下,先进高效的半自动制孔技术成为急需突破的关键技术。本文从自动进给钻的实际应用出发,研究了最新膨胀夹头式自动进给钻配套刀具、进给量与转速和叠层厚度等因素对制孔精度的影响,为膨胀夹头式自动进给钻在航空装配制孔的推广应用提供一定参考。 展开更多
关键词 自动进给钻 膨胀夹头 进给量 转速 叠层厚度
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A High Performance Sub-100nm Nitride/Oxynitride Stack Gate Dielectric CMOS Device with Refractory W/TiN Metal Gates
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作者 钟兴华 周华杰 +1 位作者 林钢 徐秋霞 《Journal of Semiconductors》 EI CAS CSCD 北大核心 2006年第3期448-453,共6页
By complementing the equivalent oxide thickness (EOT) of a 1.7nm nitride/oxynitride (N/O) stack gate dielectric (EOT- 1.7nm) with a W/TiN metal gate electrode,metal gate CMOS devices with sub-100nm gate length a... By complementing the equivalent oxide thickness (EOT) of a 1.7nm nitride/oxynitride (N/O) stack gate dielectric (EOT- 1.7nm) with a W/TiN metal gate electrode,metal gate CMOS devices with sub-100nm gate length are fabricated in China for the first time. The key technologies adopted to restrain SCE and to improve drive ability include a 1.7nm N/O stack gate dielectric, non-CMP planarization technology, a T-type refractory W/TiN metal stack gate electrode, and a novel super steep retrograde channel doping using heavy ion implantation and a double sidewall scheme. Using these optimized key technologies, high performance 95nm metal gate CMOS devices with excellent SCE and good driving ability are fabricated. Under power supply voltages of VDS ± 1.5V and VGS± 1.8V,drive currents of 679μA/μm for nMOS and - 327μA/μm for pMOS are obtained. A subthreshold slope of 84.46mV/dec, DIBL of 34.76mV/V, and Vth of 0.26V for nMOS, and a subthreshold slope of 107.4mV/dec,DIBL of 54.46mV/V, and Vth of 0.27V for pMOS are achieved. These results show that the combined technology has indeed thoroughly eliminated the boron penetration phenomenon and polysilicon depletion effect ,effectively reduced gate tunneling leakage, and improved device reliability. 展开更多
关键词 equivalent oxide thickness nitride/oxynitride gate dielectric stack W/TiN metal gate non-CMP planarization
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