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    • 1. 发明授权
    • Method of making galvanically dissipatable evanescent chaff fiber
    • 制造电消耗ev逝纤维纤维的方法
    • US5234715A
    • 1993-08-10
    • US742640
    • 1991-08-07
    • Ward C. StevensEdward A. SturmDelwyn F. Cummings
    • Ward C. StevensEdward A. SturmDelwyn F. Cummings
    • F41J2/00H01Q15/14
    • H01Q15/145F41J2/00
    • An article comprising a non-conductive substrate having a sub-micron thickness of an oxidizable conductive first metal coating thereon, and a second (promoter) metal which is galvanically effective to promote the corrosion of the first metal, discontinuously coated on the first metal coating. Optionally, the second metal-doped, first metal-coated substrate may be further coated with a salt, to accelerate the galvanic corrosion reaction by which the conductive first metal coating is oxidized. Also disclosed is a related method of forming such articles, comprising chemical vapor depositing the first metal on the substrate and chemical vapor depositing the second metal on the applied first metal coating, and of optionally applying a salt by salt solution contacting of the second metal-doped, first metal-coated substrate. When utilized in a form comprising fine-diameter substrate elements such as glass or ceramic filaments, the resulting product may be usefully employed as an evanescent chaff. In the presence of atmospheric moisture, such evanescent chaff undergoes oxidation of the first metal coating so that the radar signature of the chaff transiently decays.
    • 一种制品,其包括其上具有亚微米厚度的可氧化导电第一金属涂层的非导电基底和第二(促进剂)金属,其具有电流有效以促进第一金属的腐蚀,不连续地涂覆在第一金属涂层上 。 任选地,第二金属掺杂的第一金属涂覆的基底可以进一步涂覆盐,以加速导电的第一金属涂层被氧化的电偶腐蚀反应。 还公开了形成这种制品的相关方法,包括在基底上化学气相沉积第一金属和化学气相沉积所施加的第一金属涂层上的第二金属,以及任选地通过与第二金属 - 掺杂的第一金属涂覆的基底。 当以包括诸如玻璃或陶瓷细丝的细直径基底元件的形式使用时,所得产物可有效地用作ev逝的谷壳。 在存在大气水分的情况下,这种消逝的小麦经历第一金属涂层的氧化,使得谷壳的雷达标记瞬时衰变。
    • 2. 发明授权
    • Galvanically dissipatable evanescent chaff fiber
    • 电流消散的消逝谷壳纤维
    • US5039990A
    • 1991-08-13
    • US449708
    • 1989-12-11
    • Ward C. StevensEdward A. SturmDelwyn F. Cummings
    • Ward C. StevensEdward A. SturmDelwyn F. Cummings
    • F41J2/00H01Q15/14
    • F41J2/00H01Q15/145Y10S204/06Y10T428/12396Y10T428/12535Y10T428/12882Y10T428/12917
    • An article comprising a non-conductive substrate having a sub-micron thickness of an oxidizable conductive first metal coating thereon, and a second (promoter) metal which is galvanically effective to promote the corrosion of the first metal, discontinuously coated on the first metal coating. Optionally, the second metal-doped, first metal-coated substrate may be further coated with a salt, to accelerate the galvanic corrosion reaction by which the conductive first metal coating is oxidized. Also disclosed is a related method of forming such articles, comprising chemical vapor depositing the first metal on the substrate and chemical vapor depositing the second metal on the applied first metal coating, and of optionally applying a salt by salt solution contacting of the second metal-doped, first metal-coated substrate. When utilized in a form comprising fine-diameter substrate elements such as glass or ceramic filaments, the resulting product may be usefully employed as an evanescent chaff. In the presence of atmosphere moisture, such evanescent chaff undergoes oxidation of the first metal coating so that the radar signature of the chaff transiently decays.
    • 一种制品,其包括其上具有亚微米厚度的可氧化导电第一金属涂层的非导电基底和第二(促进剂)金属,其具有电流有效以促进第一金属的腐蚀,不连续地涂覆在第一金属涂层上 。 任选地,第二金属掺杂的第一金属涂覆的基底可以进一步涂覆盐,以加速导电的第一金属涂层被氧化的电偶腐蚀反应。 还公开了形成这种制品的相关方法,包括在基底上化学气相沉积第一金属和化学气相沉积所施加的第一金属涂层上的第二金属,以及任选地通过与第二金属 - 掺杂的第一金属涂覆的基底。 当以包括诸如玻璃或陶瓷细丝的细直径基底元件的形式使用时,所得产物可有效地用作ev逝的谷壳。 在气氛水分存在的情况下,这种消逝的壳体经历第一金属涂层的氧化,使得谷壳的雷达标记瞬时衰减。
    • 4. 发明授权
    • Method of making a salt-doped metal-coated article having an evanescent
electromagnetic detection signature
    • 制备具有ev逝电磁检测标记的盐掺杂金属涂覆制品的方法
    • US5328717A
    • 1994-07-12
    • US734199
    • 1991-07-22
    • Ward C. StevensEdward A. SturmBruce C. Roman
    • Ward C. StevensEdward A. SturmBruce C. Roman
    • F41J2/00H01Q15/14B05D5/12
    • F41J2/00H01Q15/145Y10T428/265Y10T428/2944
    • An article comprising a non-conductive substrate having a sub-micron thickness of an oxidizable metal coating thereon, and an oxidation enhancingly effective amount of a salt, e.g., from about 0.005 to about 25% by weight of salt, based on the weight of oxidizable metal, present on the oxidizable metal coating. Also disclosed is a related method of forming such article, comprising chemical vapor depositing the oxidizable metal coating on the substrate, applying the salt by contacting of the oxidizable metal-coated substrate with a salt solution, and drying of the salt solution on the oxidizable metal film to yield the product salt-doped, oxidizable metal-coated substrate article. When utilized in a form comprising fine-diameter substrate elements such as glass or ceramic filaments, the resulting product may be usefully employed as an "evanescent" chaff. In the presence of atmospheric moisture, such evanescent chaff undergoes oxidization of the oxidizable metal coating so that the radar signature of the chaff transiently decays, with the level of salt doping of the oxidizable metal film being variable to achieve a desired functional life and decay rate of the chaff radar signature.
    • 一种制品,其包含其上具有亚微米厚度的可氧化金属涂层的非导电基材,以及氧化增强有效量的盐,例如约0.005至约25重量%的盐,基于 存在于可氧化金属涂层上的可氧化金属。 还公开了形成这种制品的相关方法,包括在基底上化学气相沉积可氧化金属涂层,通过使可氧化金属涂覆的基底与盐溶液接触来施加盐,并将盐溶液干燥在可氧化金属上 产生盐掺杂的,可氧化的金属涂覆的基材制品。 当以包括诸如玻璃或陶瓷细丝的细直径基底元件的形式使用时,所得产物可有效地用作“ev逝”谷物。 在大气湿度的存在下,这种消逝的小麦经历可氧化金属涂层的氧化,使得谷壳的雷达标记瞬时衰减,可氧化金属膜的盐掺杂水平是可变的,以达到所需的功能寿命和衰变速率 的屁股雷达签名。
    • 5. 发明授权
    • Salt-doped chaff fiber having an evanescent electromagnetic detection
signature, and method of making the same
    • 具有ev逝电磁检测标记的盐掺杂谷壳纤维及其制造方法
    • US5034274A
    • 1991-07-23
    • US448252
    • 1989-12-11
    • Ward C. StevensEdward A. SturmBruce C. Roman
    • Ward C. StevensEdward A. SturmBruce C. Roman
    • F41J2/00H01Q15/14
    • F41J2/00H01Q15/145Y10T428/265Y10T428/2944
    • An article comprising a non-conductive substrate having a sub-micron thickness of an oxidizable metal coating thereon, and an oxidation enhancingly effective amount of a salt, e.g., from about 0.005 to about 25% by weight of salt, based on the weight of oxidizable metal, present on the oxidizable metal coating. Also disclosed is a related method of forming such article, comprising chemical vapor depositing the oxidizable metal coating on the substrate, applying the salt by contacting of the oxidizable metal-coated substrate with a salt solution, and drying of the salt solution on the oxidizable metal film to yield the product salt-doped, oxidizable metal-coated substrate article. When utilized in a form comprising fine-diameter substrate elements such as glass or ceramic filaments, the resulting product may be usefully employed as an "evanescent" chaff. In the presence of atmospheric moisture, such evanescent chaff undergoes oxidization of the oxidizable metal coating so that the radar signature of the chaff transiently decays, with the level of salt doping of the oxidizabale metal film being variable to achieve a desired functional life and decay rate of the chaff radar signature.
    • 一种制品,其包含其上具有亚微米厚度的可氧化金属涂层的非导电基材,以及氧化增强有效量的盐,例如约0.005至约25重量%的盐,基于 存在于可氧化金属涂层上的可氧化金属。 还公开了形成这种制品的相关方法,包括在基底上化学气相沉积可氧化金属涂层,通过使可氧化金属涂覆的基底与盐溶液接触来施加盐,并将盐溶液干燥在可氧化金属上 产生盐掺杂的,可氧化的金属涂覆的基材制品。 当以包括诸如玻璃或陶瓷细丝的细直径基底元件的形式使用时,所得产物可有效地用作“ev逝”谷物。 在存在大气湿度的情况下,这种消逝的小麦经历可氧化金属涂层的氧化,使得谷壳的雷达标记瞬时衰变,氧化物金属膜的盐掺杂水平可变,以达到所需的功能寿命和衰变速率 的屁股雷达签名。
    • 9. 发明授权
    • Chaff fiber comprising insulative coating thereon, and having an
evanescent radar reflectance characteristic, and method of making the
same
    • 其上具有绝缘涂层并具有ev逝雷达反射特性的糠纤维及其制造方法
    • US5087515A
    • 1992-02-11
    • US449695
    • 1989-12-11
    • Ward C. StevensEdward A. SturmBruce C. Roman
    • Ward C. StevensEdward A. SturmBruce C. Roman
    • F41J2/00H01Q15/14
    • H01Q15/145F41J2/00Y10T428/24997Y10T428/249978Y10T428/249979Y10T428/24998Y10T428/2918Y10T428/294Y10T428/2942Y10T428/2944Y10T428/2949Y10T428/2956Y10T428/2958Y10T428/296Y10T428/2964
    • An article comprising a non-conductive substrate which is coated with a sub-micron thickness of an oxidizable metal and overcoated with a microporous layer of an inorganic electrically insulative material. Optionally, the oxidizable metal-coated substrate may be sulfurized and/or further coated with (i) a promoter metal which is galvanically effective to promote the corrosion of the oxidizable metal, discontinuously coated on the oxidizable metal coating, and/or (ii) a salt, to accelerate the galvanic corrosion reaction by which the oxidizable metal coating is oxidized, prior to overcoating with the microporous insulative layer. Also disclosed is a related method of forming such articles, comprising chemical vapor depositing the oxidizable metal coating on the substrate and contacting the metallized substrate with a sol gel dispersion of the inorganic electrically insulative material which then is dried under suitable conditions to form the microporous layer on the substrate. When utilized in a form comprising fine diameter substrate elements such as glass or ceramic filaments, the resulting product may usefully be employed as an evanescent chaff. In the presence of atmospheric moisture, such evanescent chaff undergoes oxidation of the oxidizable metal coating so that the radar signature of the chaff transiently decays.
    • 一种制品,其包括涂覆有亚微米厚度的可氧化金属并用无机电绝缘材料的微孔层涂覆的非导电基底。 任选地,可氧化金属涂覆的基底可以被硫化和/或进一步涂覆(i)催化有效的助催化剂金属,以促进可分解涂覆在可氧化金属涂层上的可氧化金属的腐蚀,和/或(ii) 在用微孔绝缘层覆盖之前加速可氧化金属涂层被氧化的电偶腐蚀反应。 还公开了形成这种制品的相关方法,包括在基底上化学气相沉积可氧化金属涂层并使金属化基底与无机电绝缘材料的溶胶凝胶分散体接触,然后在合适的条件下干燥以形成微孔层 在基板上。 当以包括诸如玻璃或陶瓷细丝的细直径基底元件的形式使用时,所得到的产品可有效地用作渐逝的谷壳。 在大气水分存在的情况下,这种消逝的小麦经历可氧化金属涂层的氧化,使得谷壳的雷达信号瞬时衰减。
    • 10. 发明授权
    • Method for metallizing filaments
    • 金属化丝的方法
    • US4759950A
    • 1988-07-26
    • US913000
    • 1986-09-26
    • Ward C. Stevens
    • Ward C. Stevens
    • C23C16/16C23C16/54B05D3/06
    • C23C16/16C23C16/545
    • A method for metallizing a filament, wherein the filament is initially coated with a sol gel dispersion of polysilicate, titania, or alumina, and after drying at elevated temperature to form a porous interlayer coating on the filament, a nickel coating is deposited thereon from gaseous nickel carbonyl in a metallizing zone. The gaseous nickel carbonyl is produced in a fluidized bed of particulate nickel through which carbon monoxide make-up and at least a portion of the effluent gases discharged from the metallizing zone are flowed. The resulting nickel coated filament may be cut into fibers for use as a reinforcement in composite materials such as those utilized in electromagnetic inteference (EMI) shielding applications.
    • 一种用于金属化长丝的方法,其中丝线首先用聚硅酸盐,二氧化钛或氧化铝的溶胶凝胶分散体包衣,并且在升高的温度下干燥以在长丝上形成多孔中间层涂层,从其上沉积镍涂层 金属化区域中的羰基镍。 气态镍羰基在颗粒状镍的流化床中产生,一氧化碳组成的流化床中,并且从金属化区域排出的至少一部分流出气体流动。 所得的镍涂层长丝可以被切割成纤维,用作复合材料中的增强材料,例如在电磁干扰(EMI)屏蔽应用中使用的那些。