由产物分析推断了单体在等离子态下经历的反应历程。
The reaction process of monomers in plasma showed that the monomers were broken to free radical pieces in plasma, then these pieces recombined into the products.
有许多能量参与到食物的吸收,我们有机会吸收它的等离子态的能量。
There is a lot of energy involved in the subject of food and there is an opportunity to absorb it plasmatically.
尽管多数人对此并不熟悉,但等离子态是宇宙中最常见的一种物质形态。
While unfamiliar to most people, plasma is the most common phase of matter in the universe.
虽然等离子态这个词听起来也许很新鲜,但宇宙中大部分的物质都处这个态。
Although plasma might sound pretty exotic, the majority of matter found in the cosmos is in a plasma state.
在这样的温度下,物质被认为处于一种完全不同的,被称为“夸克-胶子等离子态”的状态。
At these temperatures, matter is thought to take on an entirely different state; a state called a "quark-gluon plasma."
把分子态的氢转变为等离子态的氢可以从热力学和动力学层面上提高氢还原金属氧化物的能力。
Transforming molecular hydrogen to plasma hydrogen can enhance the reduction ability of hydrogen in the terms of thermodynamics and kinetics.
如果你把物质带到实验室,你可以剥离原子的电子,然后你就得到了物质的另一种状态,它被称为‘等离子态’。
And if you take materials into laboratories, you can pull the electrons off the atoms and you have another state of matter which is called plasma.
凯史:现在我们最大的工作是尝试去教会你们,现在你来到场体的等离子态条件,它如何容易地从下至上,现在你在顶部。
Now our biggest job is trying to teach you that now you have come to the plasmatic condition of the fields and how easy it will be to go from bottom to top and now you are on the top.
随着还原时间的增长,等离子态氢还原氧化物得到的金属层厚度增加。这表明等离子态氢能强化氢还原金属氧化物的能力。
With an increase of reduction time, the reduced metallic layer became thicker, which showed that the plasma hydrogen enhanced the reduction ability of hydrogen for metal oxide.
随着还原时间的增长,等离子态氢还原氧化物得到的金属层厚度增加。这表明等离子态氢能强化氢还原金属氧化物的能力。
With an increase of reduction time, the reduced metallic layer became thicker, which showed that the plasma hydrogen enhanced the reduction ability of hydrogen for metal oxide.
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