Laser-induced fluorescence (LIF) measurements of seeded nitric oxide and naturally occurring species in a diamond-depositing dc arcjet of hydrogen/argon/methane (0.8:1.0:0.005) at 25 Torr are used to determine the temperature and velocity fields in a gas jet. LIF measurements are also used to demonstrate the importance of gas recirculation on the chemical composition of the arcjet plume. The gas flow in the arcjet plume is supersonic, with a maximum axial speed of 2.6 km/s at the center of the nozzle exit. This axial velocity decreases with radius with a parabolic distribution in the plume. There is no measurable radial velocity in the free stream of the arcjet plume, and the radial expansion of the plume is consistent with diffusion. The maximum temperature at the plume center is 2400 K and varies less than 15% with chamber pressures of 10-50 Torr. The substrate is placed in the arcjet plume normally to the directed velocity, producing a stagnation point. The gas temperature above this stagnation point is observed to rise abruptly as a consequence of the supersonic shock. The radial velocity near the stagnation point becomes significant, and a maximum radial velocity of 1300 m/s is determined.
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机译:使用激光诱导的荧光(LIF)测量在25托下的氢气/氩气/甲烷(0.8:1.0:0.005)金刚石沉积直流电弧射流中的一氧化氮和自然存在的物种,用于确定激光中的温度和速度场气体喷射。 LIF测量还用于证明气体再循环对电弧喷射烟流化学成分的重要性。电弧喷射羽流中的气流是超音速的,在喷嘴出口的中心最大轴向速度为2.6 km / s。该轴向速度随半径减小而下降,并在烟羽中呈抛物线形分布。电弧喷射羽流的自由流中没有可测量的径向速度,并且羽流的径向扩展与扩散一致。羽流中心的最高温度为2400 K,在腔室压力为10-50 Torr时变化小于15%。基材通常以定向速度放置在arcjet羽流中,从而产生停滞点。观察到由于超音速冲击,高于该停滞点的气体温度突然升高。停滞点附近的径向速度变得显着,并且确定最大径向速度为1300 m / s。
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