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    • 6. 发明授权
    • Network management apparatus and network management method
    • 网络管理设备和网络管理方法
    • US07216166B2
    • 2007-05-08
    • US10378851
    • 2003-03-05
    • Kiminori SugauchiMinoru KoizumiMichio Yamazaki
    • Kiminori SugauchiMinoru KoizumiMichio Yamazaki
    • G06F15/173
    • H04L41/0853
    • The present invention provides a technique suitable for configuration management of a network for which the number of logical network layers can be set. A network management apparatus 10 receives an address definition information file defining logical hierarchical structure of an IPv6 network 20, from an operator through a definition information reception unit 103. A configuration analysis unit 104 generates management tables defining hierarchical relationships of logical networks, based on the address definition information file and IP addresses collected respectively by an information collection unit 102 from network elements belonging to the IPv6 network 20, and registers the management tables into a management DB unit 101.
    • 本发明提供适用于可以设置逻辑网络层的数量的网络的配置管理的技术。 网络管理装置10通过定义信息接收单元103从操作者接收定义IPv6网络20的逻辑分层结构的地址定义信息文件。 配置分析单元104基于地址定义信息文件和信息收集单元102分别由属于IPv6网络20的网络单元收集的IP地址,生成定义逻辑网络层次关系的管理表,并将管理表注册到 管理DB单元101。
    • 8. 发明授权
    • Gamma-prime precipitation hardening nickel-base yttria
particle-dispersion-strengthened superalloy
    • 伽玛沉淀硬化镍基氧化钇粒子分散强化超合金
    • US4717435A
    • 1988-01-05
    • US903135
    • 1986-09-03
    • Yozo KawasakiKatsuyuki KusunokiShizuo NakazawaMichio Yamazaki
    • Yozo KawasakiKatsuyuki KusunokiShizuo NakazawaMichio Yamazaki
    • C22C19/05C22C1/04C22C1/05C22C32/00C22F1/00C22F1/10
    • C22C32/0026
    • A gamma-prime precipitation hardening nickel-base yttria particle-dispersion-strengthened superalloy having a composition consisting essentially of, by weight, 3.0 to 6.0% of Al, 8.5 to 10.9% of Co, 3.9 to 7.5% of Cr, 0.5 to 1.2% of Ti, 3.6 to 6.3% of Ta, 11.4 to 13.3% of W, 0.02 to 0.2% of Zr, 1.3 to 2.6% of Mo, 0.001 to 0.1% of C, 0.001 to 0.02% of B, 0.5 to 1.7% of yttria (Y.sub.2 O.sub.3), not more than 0.8% of O and the balance being Ni and having a structure composed of coarse recrystallized grains with a GAR of at least 20 and a short axis diameter of at least 0.5 mm, said alloy being produced by mechanically mixing a nickel carbonyl powder, element powders of Co, Cr, Ta, W and Mo, alloy powders of Ni--Al, Ni--Ti--Al, Ni--Zr and Ni--B, and a fine yttria powder in amounts to provide said composition, sealing the mixed powder into an extrusion can, extruding it, and subjecting the extruded material to zone annealing heat-treatment while its maximum temperature is within the range from its hardness softening temperature to its solidus temperature.
    • 具有基本上由Al组成3.0〜6.0%,Co:8.5〜10.9%,Cr 3.9〜7.5%,Cr:0.5〜1.2重量%组成的γ析出硬化型镍基氧化钇粒子分散强化超合金 的Ti,3.6〜6.3%的Ta,11.4〜13.3%的W,0.02〜0.2%的Zr,1.3〜2.6%的Mo,0.001〜0.1%的C,0.001〜0.02%的B,0.5〜1.7% 的氧化钇(Y 2 O 3),不大于0.8的O且余量为Ni,并且具有由具有至少20的GAR和短轴直径至少为0.5mm的粗再结晶晶粒组成的结构,所述合金由 机械混合镍羰基粉末,Co,Cr,Ta,W和Mo的元素粉末,Ni-Al,Ni-Ti-Al,Ni-Zr和Ni-B的合金粉末和细微的氧化钇粉末, 所述组合物将所述混合粉末密封成挤出罐,将其挤出,并将挤出的材料进行区域退火热处理,同时其最大温度在其硬度范围内 软化温度达到固相线温度。