试验证明,这种涂覆式桥丝电点火头的电发火参数和发火时间的精度均有所提高。
The test shown that the electric igniting parameters and igniting time of this kind of fuse head with a wrapper on its bridge wire are both better than that of common bridge wire fuse head.
试验证明,这种涂覆式桥丝电点火头的电发火参数和发火时间的精度均有所提高。
The test shown that the electric igniting parameters and igniting time of this kind of fuse head with a wrapper o…
试验证明,这种涂覆式桥丝电点火头的电发火参数和发火时间的精度均有所提高。
The test shown that the electric igniting parameters and igniting time of this kind of fuse head with a wrapper on its bridge wire...
试验证明,这种涂覆式桥丝电点火头的电发火参数和发火时间的精度均有所提高。
The test shown that the electric igniting parameters and igniting time of this kind of fuse hea...
对动态斜坡法与升降法测试原理优缺点进行了比较,在动态斜坡法测试敏感和钝感型电火工品发火感度试验的基础上,结合与升降法试验结果的对比,对动态斜坡法进行了研究。
By comparing the advantage and disadvantage of ramp current with other methods, ramp current method and up-and-down method are used to test sensitivity of bridge-wire Electrical Initiating Device.
通过加速寿命试验促使电火工品老化,利用瞬态脉冲试验,得到电火工品的温升曲线,点火压力的变化及50%发火点。
By means of speeding up the aging of the EIP and transient pulse test, the temperature-rising curve of EIP, the variation of the ignition pressure and 50% ignition point are obtained.
结果表明:两种方法预测的安全电流较高的电火工品,在相同的恒流脉冲下发火的概率较小。
The result shows that the electric explosive devices with the higher predicated no-firing current have the smaller probability to detonate through the same pulse.
提出一种灼热桥丝式电火工品发火可靠性设计方法。
A firing reliability design method for hot bridge-wire electro-explosive device was put forward.
因此,认为有实现电火工品单发发火性能预报的可能性,并对发火性能预报的两种无损检测方法进行了讨论。
For this reason, to prophesy of the firing character for one EED individually is possibility, and two methods that prophesy of the firing charater of EED are discussed.
利用超宽谱电磁脉冲(UW S-EMP)源对无线电引信进行辐照,辐照结果表明:超宽谱电磁脉冲不能使勤务状态下的引信意外发火,但是可以使待发状态下的引信意外发火;
The radio fuzes are irradiated by UWS-EMP. Irradiating result indicates that the fuzes on duty status are safe to UWS-EMP, but UWS-EMP can cause radio fuzes on ready status detonate.
利用超宽谱电磁脉冲(UW S-EMP)源对无线电引信进行辐照,辐照结果表明:超宽谱电磁脉冲不能使勤务状态下的引信意外发火,但是可以使待发状态下的引信意外发火;
The radio fuzes are irradiated by UWS-EMP. Irradiating result indicates that the fuzes on duty status are safe to UWS-EMP, but UWS-EMP can cause radio fuzes on ready status detonate.
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