论文部分内容阅读
用于海军垂直发射系统(VLS)的最新导弹是“标准”SM-2BlockⅣ导弹。该导弹采用Mk72推力矢量控制(TVC)助推器,这种助推器可使导弹的射高、横向距离和射程增大。Mk72助推器的燃气质量流量比旧式导弹大2~3倍(这是在评估最坏情况下燃气流对舰艇甲板设备的影响时得到的)。为了确定标准BlockⅣ导弹的装舰效果进行了一些试验。这些试验的总目的是保证“标准”BlockⅣ导弹装舰顺利和紧凑。通过装舰前的一体化试验,可了解“标准”BlockⅣ导弹的发射对有关人员和设备的危险性,并采取措施以消除这些危险。本文对Mk72火箭发动机的燃气流对装有“宙斯盾”垂直发射系统的舰艇甲板设备的影响进行了研究。试验型火箭发动机的静态点火试验和垂直发射系统的发射试验均在白沙导弹靶场进行。
The latest missile for the VLS is the “standard” SM-2Block IV. The missile uses the Mk72 thrust vector control (TVC) booster, which boosts the missile’s shot height, lateral range and range. Mk72 booster gas mass flow 2 to 3 times larger than old missiles (this is the worst-case gas stream to ship deck equipment). In order to determine the standard Block IV missile loading effect of some experiments. The overall purpose of these tests is to ensure that the “standard” Block IV missiles are loaded smoothly and compactly. By integrating pre-shipment tests, it is possible to understand the dangers to personnel and equipment associated with the launch of “standard” Block IV missiles and to take steps to eliminate them. In this paper, the effect of the gas flow of Mk72 rocket engine on the ship deck equipment equipped with the “Aegis” vertical launching system has been studied. The static ignition test of the test rocket engine and the launching test of the vertical launch system are conducted at the Baisha missile range.