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    • 2. 发明授权
    • Method for making high performance explosive formulations containing CL-20
    • 制备含CL-20的高性能炸药的方法
    • US06217799B1
    • 2001-04-17
    • US09166843
    • 1998-10-06
    • Kenneth E. LeeRobert L. HatchPaul Braithwaite
    • Kenneth E. LeeRobert L. HatchPaul Braithwaite
    • C06B4510
    • C06B21/0083C06B45/10C06B45/22
    • A water slurry method of making high performance explosive compositions and ordnances using the explosive compositions as an explosive ingredient for high performance, low sensitivity explosive applications is disclosed. The method involves combining an aqueous dispersion including CL-20 with a lacquer including at least one non-energetic binder and at least one plasticizer, then agitating the slurry to form CL-20 granules. The CL-20 may be present in the explosive formulation in a concentration of from about 85 wt % to about 96 wt %. The formulation is preferably sufficiently pressable and/or extrudable to permit it to be formed into grains suitable for ordnance and similar applications, including use as grenades, land mines, missile warheads, and demolition explosives.
    • 公开了一种使用该炸药组合物作为高性能,低灵敏度爆炸应用的爆炸性成分的高性能炸药组合物和水泥浆的水浆法。 该方法包括将包含CL-20的水性分散体与包含至少一种非能量粘合剂和至少一种增塑剂的漆混合,然后搅拌该浆料以形成CL-20颗粒。 CL-20可以以约85重量%至约96重量%的浓度存在于爆炸性制剂中。 该制剂优选是可充分压力的和/或可挤压的,以使其可形成适合于军械和类似应用的谷物,包括用作手榴弹,地雷,导弹弹头和拆卸爆炸物。
    • 3. 发明授权
    • High performance explosive containing CL-20
    • 高性能炸药含CL-20
    • US06214137B1
    • 2001-04-10
    • US09166842
    • 1998-10-06
    • Kenneth E. LeeRobert L. HatchMark MezgerSteve Nicolich
    • Kenneth E. LeeRobert L. HatchMark MezgerSteve Nicolich
    • C06B4510
    • C06B25/34C06B21/0066C06B23/005
    • High performance explosive compositions and ordnances using the explosive compositions as an explosive ingredient for high performance, low sensitivity explosive applications are disclosed. The explosive formulation includes CL-20 as an explosive ingredient, and a binder system including cellulose acetate butyrate as a non-energetic binder and bis-dinitropropyl acetal and bis-dinitropropyl formal as an energetic plasticizer. The CL-20 may be present in the explosive formulation in a concentration of from about 85 wt % to about 96 wt %. The formulation is preferably sufficiently pressable and/or extrudable to permit it to be formed into grains suitable for ordnance and similar applications, including use as grenades, land mines, missile warheads, and demolition explosives.
    • 公开了使用爆炸性组合物作为高性能,低灵敏度爆炸应用的爆炸性成分的高性能炸药组合物和弹药。 爆炸性制剂包括作为爆炸性成分的CL-20,以及包含作为非能量粘合剂的乙酸丁酸纤维素和作为能量增塑剂的双二硝基丙基缩醛和双二硝基丙基缩甲醛的粘合剂体系。 CL-20可以以约85重量%至约96重量%的浓度存在于爆炸性制剂中。 该制剂优选是可充分压力的和/或可挤压的,以使其可形成适合于军械和类似应用的谷物,包括用作手榴弹,地雷,导弹弹头和拆卸爆炸物。
    • 4. 发明申请
    • DIGITAL METAMORPHIC ALLOYS FOR GRADED BUFFERS
    • 用于分级缓冲器的数字元素合金
    • US20100221512A1
    • 2010-09-02
    • US12395564
    • 2009-02-27
    • Kenneth E. LeeEugene A. Fitzgerald
    • Kenneth E. LeeEugene A. Fitzgerald
    • B32B7/02B05D1/36
    • H01L21/02543H01L21/02395H01L21/02461H01L21/02463H01L21/02507H01L21/0251H01L21/0262Y10T428/2495
    • Digital metamorphic alloy (DMA) buffer structures for transitioning from a bottom crystalline layer to a lattice mismatched top crystalline layer, and methods for manufacturing such layers are described. In some embodiments, a layered crystalline structure includes a first layer of a first crystalline material having a first in-plane lattice constant and a second layer of a second crystalline material disposed over the first layer and having a second in-plane lattice constant that is lattice mismatched with the first crystalline material. Multiple sets of buffer layers may be disposed between the first layer and the second layer. Each set is a digital metamorphic alloy including a buffer layer of a third crystalline material and a buffer layer of a fourth crystalline material where an effective in-plane lattice constant of each set falls between the first lattice of the first layer and the second lattice constant of the second layer.
    • 描述了从底部结晶层转变为晶格失配顶部晶体层的数字变质合金(DMA)缓冲结构以及制造这种层的方法。 在一些实施例中,层状晶体结构包括具有第一面内晶格常数的第一晶体材料的第一层和设置在第一层上并具有第二平面晶格常数的第二晶体材料的第二层, 晶格与第一结晶材料不匹配。 可以在第一层和第二层之间设置多组缓冲层。 每组是包含第三结晶材料的缓冲层和第四晶体材料的缓冲层的数字变质合金,其中每组的有效面内晶格常数落在第一层的第一晶格和第二晶格常数之间 的第二层。
    • 7. 发明授权
    • Closure assembly for a furnace
    • 炉膛封闭组件
    • US4016820A
    • 1977-04-12
    • US632891
    • 1975-11-17
    • Richard C. JohnsonKenneth E. Lee
    • Richard C. JohnsonKenneth E. Lee
    • F23M7/00
    • F23M7/00
    • A closure assembly for a furnace wall in which a plug member is secured to a shell member which, in turn, is pivotally mounted to the furnace wall. The plug member is formed from a cast ceramic fiber tamping mix of bulk fiber and high temperature inorganic binders and has a relatively low density. A centrally located stepped bore extends through the plug member for receiving a rod to the interior face of the shell member. A fastening means engages the rod for securing the plug member relative to the shell member and an insert formed from the same material as the plug member is fixed in the bore hole.
    • 一种用于炉壁的封闭组件,其中插头构件固定到壳构件,壳体构件又可枢转地安装到炉壁。 插塞构件由散装纤维和高温无机粘合剂的铸造陶瓷纤维捣固混合物形成,并且具有相对较低的密度。 位于中心的阶梯孔延伸穿过插塞构件,用于将杆接纳到壳构件的内表面。 紧固装置接合杆,用于将插塞构件相对于壳构件固定,并且由与插塞构件相同的材料形成的插入件固定在钻孔中。