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    • 11. 发明授权
    • Cryogenic target formation using cold gas jets
    • 使用冷气喷射的低温目标形成
    • US4258075A
    • 1981-03-24
    • US84023
    • 1979-10-11
    • Charles D. Hendricks
    • Charles D. Hendricks
    • H05H1/22G21B1/00
    • G21B1/19Y02E30/16Y10S376/916
    • A method and apparatus using cold gas jets for producing a substantially uniform layer of cryogenic materials on the inner surface of hollow spherical members having one or more layers, such as inertially imploded targets. By vaporizing and quickly refreezing cryogenic materials contained within a hollow spherical member, a uniform layer of the materials is formed on an inner surface of the spherical member. Basically the method involves directing cold gas jets onto a spherical member having one or more layers or shells and containing the cryogenic material, such as a deuterium-tritium (DT) mixture, to freeze the contained material, momentarily heating the spherical member so as to vaporize the contained material, and quickly refreezing the thus vaporized material forming a uniform layer of cryogenic material on an inner surface of the spherical member.
    • 一种使用冷气体射流的方法和装置,用于在具有一层或多层的中空球形构件的内表面上产生基本上均匀的低温材料层,例如惯性撞击的靶。 通过汽化和快速冷冻包含在中空球形构件内的低温材料,在球形构件的内表面上形成均匀的材料层。 基本上,该方法包括将冷气喷射器引导到具有一个或多个层或壳的球形部件上,并且包含诸如氘 - 氚(DT)混合物的低温材料,以冷冻所含的材料,立即加热球形部件,以便 蒸发含有的材料,并且在球形构件的内表面上快速重新冷冻形成均匀的低温材料层的蒸发的材料。
    • 12. 发明授权
    • Miscellaneous items carrier
    • 杂项物品承运人
    • US4209116A
    • 1980-06-24
    • US954839
    • 1978-10-26
    • Charles D. Hendricks
    • Charles D. Hendricks
    • A45F5/10B65D75/00
    • A45F5/10
    • A flexible panel member is provided including upright horizontally spaced apart and elongated sides interconnected along their lower marginal edge portions by a bottom extending between and anchored relative to the side lower marginal edge portions. An upstanding end wall extends and is secured between at least the lower portions of the sides at one pair of corresponding ends thereof and the upper marginal edge portions of the sides include stiffening members extending therealong from at least areas thereof spaced centrally intermediate the opposite ends of the sides toward the aforementioned first pair of ends thereof. The second pair of corresponding ends of the sides are at least substantially free of connections extending therebetween above the bottom and the portions of the stiffening members supported from the longitudinal central areas of the upper marginal edges of the sides include structure defining elongated horizontal hand grips extending longitudinally of the sides. The bottom is downwardly inclined toward the first pair of corresponding ends of the sides when the hand grips are horizontally disposed.
    • 提供了一种柔性面板构件,其包括沿其下边缘部分互连的直立的水平间隔开的细长边和相对于侧边缘边缘部分之间延伸并在其之间锚固的底部。 直立的端壁在其一对相应的端部处至少在侧面的下部之间延伸并被固定,并且侧边的上边缘部分包括加强构件,该加强构件从至少其间隔中间的区域延伸, 侧面朝向上述第一对端部。 侧面的第二对对应的端部至少基本上没有在底部之间延伸的连接,并且从侧面的上边缘的纵向中心区域支撑的加强构件的部分包括限定伸长的水平手柄的结构 侧面纵向。 当手柄水平放置时,底部朝向侧面的第一对相应端部向下倾斜。
    • 14. 发明授权
    • Method for foam encapsulating laser targets
    • 泡沫封装激光靶的方法
    • US4034032A
    • 1977-07-05
    • US609640
    • 1975-09-02
    • Charles D. Hendricks
    • Charles D. Hendricks
    • C08J9/28H05H1/22B29D27/04C01B4/00
    • G21B1/19C08J9/28C08J2201/048C08J2201/054C08J2301/12Y02E30/16Y10S376/916Y10T428/2991
    • Foam encapsulated laser fusion targets are made by positioning a fusion fuel-filled sphere within a mold cavity of suitable configuration and dimensions, and then filling the cavity with a material capable of producing a low density, microcellular foam, such as cellulose acetate dissolved in an acetone-based solvent. The mold assembly is dipped into an ice water bath to gel the material and thereafter soaked in the water bath to leach out undesired components, after which the gel is frozen, then freeze-dried wherein water and solvents sublime and the gel structure solidifies into a low-density microcellular foam, thereafter the resulting foam encapsulated target is removed from the mold cavity. The fuel-filled sphere is surrounded by foam having a thickness of about 10 to 100 .mu.m, a cell size of less than 2 .mu.m, and density of 0.065 to 0.6 .times. 10.sup.3 kg/m.sup.3. Various configured foam-encapsulated targets capable of being made by this encapsulation method are illustrated.
    • 泡沫包封的激光熔化靶是通过将熔融填充的填充球定位在合适的构造和尺寸的模腔内,然后用能够产生低密度微孔泡沫的材料(例如溶解在 丙酮类溶剂。 将模具组件浸入冰水浴中以凝胶化材料,然后在水浴中浸泡以浸出不需要的组分,然后将凝胶冷冻,然后冷冻干燥,其中水和溶剂升华,凝胶结构固化成 低密度微孔泡沫,然后将所得的泡沫包封的目标物从模腔中除去。 充满燃料的球体由具有约10至100μm厚度的泡沫,细胞尺寸小于2μm,密度为0.065至0.6×10 3 kg / m 3的泡沫包围。 示出了能够通过该封装方法制造的各种配置的泡沫封装的靶。