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    • 3. 发明授权
    • Ceramic composite material and its manufacturing method, and heat resistant member using thereof
    • 陶瓷复合材料及其制造方法,以及使用其的耐热构件
    • US06194083B1
    • 2001-02-27
    • US09122636
    • 1998-07-27
    • Kazuhiro YasudaSeiichi SuenagaKunihiko WadaHiroki InagakiYasuhiro Goto
    • Kazuhiro YasudaSeiichi SuenagaKunihiko WadaHiroki InagakiYasuhiro Goto
    • B32B900
    • C23C4/06C04B35/488C23C4/18Y10T428/12493Y10T428/12611Y10T428/12618Y10T428/12931Y10T428/12944Y10T428/252
    • A ceramic composite material comprises a ceramic material constituting a matrix, and dispersion particles disposed in the matrix in a dispersing manner. A specific shape of a ceramic composite material is, for instance, a sinter or a thermally sprayed layer. The dispersion particles are consisting of a composite oxide including at least one kind of a first metallic element selected from alkaline earth metals such as Mg and Ca, and at least one kind of a second metallic element selected from W, Ti, Ta, Mo, Nb, V, B, Te, Ge and Si, for instance, are composite oxide particles precipitated by reacting a compound containing a first metallic element and a compound including a second metallic element through heat treatment. The precipitated particles consisting of such a composite oxide can be dispersed as planar particles or acicular particles in the ceramic layer to which, for instance, thermal spraying is applied. The dispersion particles suppress deterioration of strength or toughness of the oxide based ceramic material under high temperature atmosphere.
    • 陶瓷复合材料包括构成基体的陶瓷材料和以分散方式设置在基质中的分散粒子。 陶瓷复合材料的特定形状是例如烧结体或热喷涂层。 分散粒子由包含选自碱土类金属如Mg和Ca中的至少一种第一金属元素和选自W,Ti,Ta,Mo中的至少一种第二金属元素的复合氧化物组成, 例如,Nb,V,B,Te,Ge和Si是通过热处理使包含第一金属元素的化合物和包括第二金属元素的化合物反应而沉淀的复合氧化物颗粒。 由这种复合氧化物构成的沉淀粒子可以作为平面粒子或针状粒子分散在例如进行热喷涂的陶瓷层中。 分散颗粒抑制氧化物基陶瓷材料在高温气氛下的强度或韧性的劣化。
    • 5. 发明授权
    • Holding device
    • 保持装置
    • US09025721B2
    • 2015-05-05
    • US13618641
    • 2012-09-14
    • Kunihiko WadaFumiyo KunoYutaka IshiwataTsuneji KamedaRyoichi HamazakiNoriyuki Katagiri
    • Kunihiko WadaFumiyo KunoYutaka IshiwataTsuneji KamedaRyoichi HamazakiNoriyuki Katagiri
    • G21C9/00G21C9/016
    • G21C9/016Y02E30/40
    • There is provided a holding device which can hold a molten corium for a predetermined period even when the molten corium is exposed to heat or undergoes any chemical reaction and which is applicable to practical use. There is provided a holding device provided below a nuclear reactor pressure vessel for holding a molten corium, wherein the holding device includes a base material in contact with a cooling medium, and a multilayer stack structure on the base material. The multilayer stack structure has a first layer having heat-resistant property, a second layer formed on the first layer and having heat-resistant property with lower heat conductivity than that of the first layer, and a third layer formed on the second layer and having corrosion-resistant property and impact-absorbing property.
    • 提供了一种保持装置,即使在熔融的金属暴露于热或经历任何化学反应并且适用于实际应用的情况下,其也可以将熔融的金属晶体保持预定的时间。 提供了一种保持装置,其设置在用于保持熔融的金属的核反应堆压力容器下方,其中保持装置包括与冷却介质接触的基材,以及在基材上的多层堆叠结构。 多层堆叠结构具有耐热性的第一层,形成在第一层上的具有比第一层低的导热性的耐热性的第二层,以及形成在第二层上的第三层,具有 耐腐蚀性和冲击吸收性。
    • 7. 发明申请
    • HOLDING DEVICE
    • 控股设备
    • US20130070886A1
    • 2013-03-21
    • US13618641
    • 2012-09-14
    • Kunihiko WADAFumiyo KunoYutaka IshiwataTsuneji KamedaRyoichi HamazakiNoriyuki Katagiri
    • Kunihiko WADAFumiyo KunoYutaka IshiwataTsuneji KamedaRyoichi HamazakiNoriyuki Katagiri
    • G21C9/016
    • G21C9/016Y02E30/40
    • There is provided a holding device which can hold a molten corium for a predetermined period even when the molten corium is exposed to heat or undergoes any chemical reaction and which is applicable to practical use. There is provided a holding device provided below a nuclear reactor pressure vessel for holding a molten corium, wherein the holding device includes a base material in contact with a cooling medium, and a multilayer stack structure on the base material. The multilayer stack structure has a first layer having heat-resistant property, a second layer formed on the first layer and having heat-resistant property with lower heat conductivity than that of the first layer, and a third layer formed on the second layer and having corrosion-resistant property and impact-absorbing property.
    • 提供了一种保持装置,即使在熔融的金属暴露于热或经历任何化学反应并且适用于实际应用的情况下,其也可以将熔融的金属晶体保持预定的时间。 提供了一种保持装置,其设置在用于保持熔融的金属的核反应堆压力容器下方,其中保持装置包括与冷却介质接触的基材,以及在基材上的多层堆叠结构。 多层堆叠结构具有耐热性的第一层,形成在第一层上的具有比第一层低的导热性的耐热性的第二层,以及形成在第二层上的第三层,具有 耐腐蚀性和冲击吸收性。