公开(公告)号：US20130008334A1

公开(公告)日：2013-01-10

申请号：US13635616

申请日：2011-03-03

Applicant: Robert Claridge ,  David Combes

Inventor： Robert Claridge ,  David Combes

IPC: F42B3/10 ,  H05K13/00 ,  F42B3/198

CPC classification number: F42B33/0207 ,  C06B21/0033 ,  C06C7/00 ,  C06C7/02 ,  F42C15/184 ,  F42C15/34 ,  Y10T29/49002

Abstract: This invention relates to a MEMS detonator, in particular the production of MEMS scale detonators via the use of a microreactor (3). The invention further lies in a reproducible manufacturing method of MEMS scale detonators, for use in safety and arming units (SAU), which are used in warheads and munitions. A warhead comprising a MEMS detonator may find particular use in increasing the IM compliance of munitions. The method involves the use of high pressure input of two solutions (2, 2a) into a microreactor (3) to form an in-situ precipitation reaction, which furnishes an initiatory (i.e. primary) explosive, wherein the explosive and supernatant liquid is directly fed into a microchamber, using the microcavities in the septum as a MEMS sieve to retain the explosive and form a MEMS detonator.

Abstract translation: 本发明涉及一种MEMS雷管，特别是通过使用微反应器（3）来生产MEMS标尺雷管。 本发明进一步在MEMS重力制造方法的MEMS尺度雷管中，用于在弹头和弹药中使用的安全和装备单元（SAU）。 包括MEMS雷管的弹头可以特别用于增加弹药的IM符合性。 该方法包括使用两个溶液（2,2a）的高压输入到微反应器（3）中以形成原位沉淀反应，其提供引发剂（即初级）炸药，其中爆炸物和上清液直接 进入微型仓库，使用隔膜中的微腔作为MEMS筛子来保留爆炸物并形成MEMS雷管。

公开(公告)号：US20060243151A1

公开(公告)日：2006-11-02

申请号：US10558115

申请日：2004-05-27

Applicant: Tracey Vine ,  Robert Claridge ,  Terence Jordan ,  Nigel Comfort ,  William Damerell

Inventor： Tracey Vine ,  Robert Claridge ,  Terence Jordan ,  Nigel Comfort ,  William Damerell

IPC: C06B45/10 ,  D03D43/00 ,  F42C19/12

CPC classification number: C09D11/30 ,  B41M3/006 ,  B64G1/26 ,  B64G1/403 ,  C06B21/0083 ,  C06B45/00 ,  C06C5/00 ,  C06C9/00 ,  C06C15/00 ,  C09D11/02

Abstract: An explosive device is provided, containing an explosive formulation or explosive ink, which is capable of being disposed of onto a substrate for the device by well known printing and depositing techniques, such as screen printing, ink jet printing or gravure methods. The formulation contains an ink resin binder, a metal and a non-metal in particulate form where the diameter of the particles is less than 10 μm, such that when the formulation is heated, a reactive output results. The substrate can be chosen from any inert material or alternatively an energetic material for which the formulation provides a means of initiation. Preferred metals are aluminum iron or titanium and non-metals are carbon, silicon, boron or metal oxides such as copper oxide, nickel oxide or molybedenum oxide. Devices according to the invention may take the form of a; pyrotechnic train, initiators, fuseheads, initiators for gas generators, microthrusters, and may form part of a larger system containing energetic materials.

Abstract translation: 提供了一种爆炸装置，其包含爆炸性制剂或爆炸性油墨，其能够通过公知的印刷和沉积技术（例如丝网印刷，喷墨印刷或凹版印刷方法）被放置在装置的基材上。 制剂含有油墨树脂粘合剂，金属和颗粒形式的非金属，其中颗粒的直径小于10微米，使得当制剂加热时，产生反应性输出。 基材可以选自任何惰性材料，或者选择性地为制剂提供引发手段的高能材料选择。 优选的金属是铝铁或钛，非金属是碳，硅，硼或金属氧化物，例如氧化铜，氧化镍或氧化钼。 根据本发明的装置可以采取以下形式： 烟火列车，启动器，保险丝头，气体发生器的启动器，微型推进器，并且可以形成包含高能材料的较大系统的一部分。