| 1. | Mathematical model for predicting melt - erosion in gun barrels 身管熔化烧蚀的预测数学模型 |
| 2. | Study of reducing erosion of rail electrode surfaces in railgun 减轻轨道炮炮膛烧蚀的研究 |
| 3. | Test method for heat of ablation 烧蚀的热试验方法 |
| 4. | Influence of rotary arc on the feature and electrode erosion of spark switch 旋转电弧对火花间隙开关电极烧蚀的影响 |
| 5. | The basic physical mechanisms of the electrode erosion process of high power gas switches were also studied 研究了高功率气体火花开关电极烧蚀的基本物理过程。 |
| 6. | The conclusion obtained from experimental result showed that particle concentration is an important factor on inhibitor ablation 试验结果表明:粒子聚集浓度是绝热层烧蚀的重要影响因素。 |
| 7. | Focused on the relationship between ablation and its influence ingredients , this paper analyzed simulation techniques of flow field under high acceleration condition 针对高过载问题中绝热材料烧蚀的影响因素,进行了地面模拟高过载发动机流场的方案分析。 |
| 8. | Ablation experiments were carried out using this system to study main factors that influenced ablation . the experiment results showed that such parameters as oxygen percentage and pressure would affect ablation greatly 通过改变富氧含量、燃烧室压强等参数进行了不同工况下的烧蚀实验,分析了影响烧蚀的主要因素。 |
| 9. | In order to explore the influence of particle diameter on flow field and ablation , particle collection experiments under simulated acceleration conditions were conducted and diameter distribution was obtained 为分析粒径对流动计算、烧蚀的影响,开展了模拟过载条件下的粒子收集试验,获得了在聚集状态下的粒径分布。 |
| 10. | The interior temperature distribution and ablation model of projectile wing is established from general transmitting heat differential equation ; at the same time , the heat flow density and pressure distribution model of projectile wing is also established 从一般形式的导热微分方程出发,逐步建立了弹翼内部温度分布和烧蚀的数学计算模型;与此同时,建立了弹翼表面的热流密度和压力分布的数学模型。 |