等离子气体

等离子气体会几分钟内达到有毒浓度。

The plasma gas will become toxic within minutes .

此外，它还可以利用更多的等离子气体进口（76）。

In addition , it may utilize more plasma gas inlets ( 76 ) .

外层的X射线和炽热的等离子气体将继续向上向外扩张，将挡球网、双方队伍、看台以及周围的居民区一一吞没——而这些都将发生在球被掷出后的第一个毫秒内。

The shell of x-rays and superheated plasma would expand outward and upward , swallowing the backstop , both teams , the stands , and the surrounding neighborhood-all in the first microsecond .

研究了体系压力、放电功率、等离子气体（N2、Ar）及基片距离对淀积速率的影响，重点讨论了取代基的影响。

The effects of system pressure , discharge power and plasma gases on polymerization rate , polymer structure and property were investigated , emphasis was put on discussion of substituent effects .

关于等离子气体，还有很多基本性质的问题仍让我们困扰，

There are many basic properties about this plasma that still confuse us ,

太阳释放热等离子气体作为一种能量进入磁层，这些气体会分解并穿过地球大气层。然而，人们对这美丽的景象除了好奇，更多的是惊叹。

This gas breaks up and penetrates the Earth 's atmosphere and curious humans below marvel at the breathtaking result .

通过前面的任何一种方式，可得到等离子气体和其它组分的特征发射光谱。通过特征光谱判定每种物质。

By any of the above mentioned methods , a characteristic emission spectra can be obtained for the plasma gas and each substance in it .

研究了电弧功率、喷涂距离和等离子气体流量对涂层显微组织和性能的影响。

The effects of the plasma power , spraying distance and plasma gas flow rate on the microstructure and properties of the coatings were investigated .

由于非平衡等离子体化学过程在增强氧化能力、促进分子离解以及加速化学反应等方面具有很高的效率，因此，近年来利用非平衡等离子技术对气体污染物的破坏分解研究受到了广泛的关注。

Non thermal plasma chemical processes have been known to be highly effective in promoting oxidation , enhancing molecular dissociation , and enhancing chemical reaction , therefore , the decomposition of hazardous air pollutants by non thermal plasma has attracted more attention .

对钼粉等离子喷涂的适当气体流量应当在30L／min左右。

The appropriate flux should be maintained around 30L / min.

试验采用水冷非转移式等离子喷枪，工作气体N2、H2，其纯度999%。

In test the water cooling non-transference type plasma spray gun was used , the working gases were N 2 , H 2 , with purity of 99.9 % .

主要介绍了目前等离子&熔化极气体保护焊在采用不同的电极连接形式下，不同的电弧形态和熔滴过渡方式，以及电弧成分组成和温度分布；

This paper mainly introduces the different arc shapes , metal transfer modes , compositions of arc and temperature distribution in plasma-GMAW with different electrode connection forms at present ;