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    • 4. 发明授权
    • Diminishing detonator effectiveness through electromagnetic effects
    • 通过电磁效应降低雷管效能
    • US09448042B2
    • 2016-09-20
    • US13934377
    • 2013-07-03
    • University of Nevada, Las Vegas
    • Robert A. Schill, Jr.
    • F41H11/136F42D5/04
    • F41H11/136F41H11/12F42B33/06F42D5/04
    • An inductively coupled transmission line with distributed electromotive force source and an alternative coupling model based on empirical data and theory were developed to initiate bridge wire melt for a detonator with an open and a short circuit detonator load. In the latter technique, the model was developed to exploit incomplete knowledge of the open circuited detonator using tendencies common to all of the open circuit loads examined. Military, commercial, and improvised detonators were examined and modeled. Nichrome, copper, platinum, and tungsten are the detonator specific bridge wire materials studied. The improvised detonators were made typically made with tungsten wire and copper (˜40 AWG wire strands) wire.
    • 开发了具有分布式电动势源的电感耦合传输线和基于经验数据和理论的替代耦合模型,用于启动具有开路和短路雷管负载的雷管的桥接线熔体。 在后一种技术中,该模型被开发用于利用所检查的所有开路负载共同的倾向的开环雷管的不完整知识。 对军事,商业和即兴雷管进行了检查和建模。 镍铬,铜,铂和钨是研究的雷管特殊桥线材料。 即兴雷管通常用钨丝和铜(〜40 AWG线股)线制成。
    • 5. 发明授权
    • Simulation chamber and method for setting off explosive charges contained in freight in a controlled manner
    • 仿真室和方法,以控制方式发放货物中的爆炸物
    • US09335139B2
    • 2016-05-10
    • US14345697
    • 2012-09-19
    • NAUTILUS SOFTWAREDESIGN
    • Michael Böck
    • F42D5/04F42D5/02F42B33/06
    • F42D5/02F42B33/06F42D5/04
    • The invention relates to a simulation chamber for setting of explosive charges contained in freight in a controlled manner under simulated conditions, comprising a closed explosion chamber (1), into which the freight (2) is introduced and in which real-time conditions are specified that match ambient conditions of the freight (2) on an intended transport path. In order to further develop such a simulation chamber in such a way that even explosive charges that cannot be detected by means of the hitherto existing examination and testing methods can be recognized, a mobile radio testing unit (4) is provided according to the invention, by means of which a mobile radio device contained in the freight (2) can be detected.
    • 本发明涉及一种模拟室,用于在模拟条件下以受控的方式设置货物中包含的炸药,包括封闭的爆炸室(1),货物(2)被引入其中并且具体规定了实时条件 将货物(2)的环境条件与预期的运输路径相匹配。 为了进一步开发这种仿真室,使得能够识别出通过现有的检查和测试方法无法检测到的爆炸性电荷,根据本发明提供了一种移动无线电测试单元(4) 通过该装置可以检测包含在货物(2)中的移动无线电设备。
    • 8. 发明授权
    • Disposal of munitions
    • 处理弹药
    • US09285197B2
    • 2016-03-15
    • US14431429
    • 2013-10-02
    • DISARMCO HOLDINGS LIMITED
    • John Nicholas Reid
    • F42B33/06
    • F42B33/06
    • A method is described for safely opening the shell of a munition (10) having an inner chamber containing an explosive material. The method comprises the steps of machining a groove (20) into the shell along a parting line that encircles the outer surface of the munition and divides the shell into two parts. The groove (20) is of sufficient depth to weaken the shell but not to penetrate into the inner chamber of the munition. After machining the groove (20), the shell is cracked open by prising the two parts of the shell apart by inserting a suitable implement into the groove.
    • 描述了一种用于安全地打开具有包含爆炸材料的内室的弹药(10)的外壳的方法。 该方法包括以下步骤:沿着围绕弹药外表面的分型线将槽(20)加工成壳体,并将壳体分为两部分。 凹槽(20)具有足够的深度以削弱壳体但不会渗透到弹药的内腔中。 在加工凹槽(20)之后,通过将适当的工具插入凹槽中,将壳体的两个部分分开,使外壳破裂。
    • 9. 发明申请
    • Disposal of Munitions
    • 处理弹药
    • US20150241187A1
    • 2015-08-27
    • US14431429
    • 2013-10-02
    • CALORDOMUS LIMITEDDISARMCO HOLDINGS LIMITED
    • John Nicholas REID
    • F42B33/06
    • F42B33/06
    • A method is described for safely opening the shell of a munition (10) having an inner chamber containing an explosive material. The method comprises the steps of machining a groove (20) into the shell along a parting line that encircles the outer surface of the munition and divides the shell into two parts. The groove (20) is of sufficient depth to weaken the shell but not to penetrate into the inner chamber of the munition. After machining the groove (20), the shell is cracked open by prising the two parts of the shell apart by inserting a suitable implement into the groove.
    • 描述了一种用于安全地打开具有包含爆炸材料的内室的弹药(10)的外壳的方法。 该方法包括以下步骤:沿着围绕弹药外表面的分型线将槽(20)加工成壳体,并将壳体分为两部分。 凹槽(20)具有足够的深度以削弱壳体但不会渗透到弹药的内腔中。 在加工凹槽(20)之后,通过将适当的工具插入凹槽中,将壳体的两个部分分开,使外壳破裂。
    • 10. 发明申请
    • METHOD AND DEVICE FOR DECOMMISSIONING BODIES CONTAINING EXPLOSIVE MATERIAL
    • 包含爆炸材料的装置的方法和装置
    • US20150239791A1
    • 2015-08-27
    • US13356080
    • 2012-01-23
    • Gert VON WICKEDEErnst KSCHAMERGerd GUDEFrank PETZSCH
    • Gert VON WICKEDEErnst KSCHAMERGerd GUDEFrank PETZSCH
    • C06B21/00A62D3/40F42B33/06
    • C06B21/00F42B33/06F42B33/067
    • Method for decommissioning a body containing explosive material includes opening the body containing explosive material in a secured and/or currentless state, and cutting individual bodies along a cutting plane into at least two parts in a liquid by one or more cutting processes to expose the main charge carriers intact in the respective individual bodies for removal without destruction. Method further includes removing main charge carrier essentially intact while still in the liquid from the individual bodies, and transferring the main charge carrier to a container, structured and arranged to store each individual main charge carrier free from contact with other main charge carriers, and which includes a material that is absorbent for liquids. Method further includes feeding the container with the main charge carriers to an incineration process and grinding all of the other parts of the individual bodies in a grinding process to produce ground material.
    • 包含爆炸材料的身体的退役方法包括在固定和/或无电流状态下打开包含爆炸材料的身体,并且通过一个或多个切割过程将单个主体沿着切割平面切割成液体中的至少两个部分,以暴露主体 电荷载体在相应的各个体内完好无损地移除。 方法还包括:从静止在各个体内的液体中基本完整地除去主电荷载体,并将主电荷载体转移到容器上,该容器被构造和布置成存储每个单独的主电荷载体与其它主电荷载体无接触,以及哪些 包括吸收液体的材料。 方法还包括将容器与主电荷载体一起进料到焚化过程中,并在研磨过程中研磨各个体的所有其它部分以产生研磨材料。