模量随热氧化温度变化不明显。
The tensile modulus showed a negligible change with thermal oxidation temperature.
随氧化温度的升高,各组分的变化更为明显。
The higher the oxidizing temperature, the more remarkable the change of constituents contents.
之后,随着氧化温度升高,失重率逐渐减少;
The weight loss decreases with the oxidation temperatures rising.
并随着氧化温度的增高,这个长大过程进行的更快。
And with the oxidation temperature increased, the growing process gets faster.
结果表明,预氧化温度和铺丝厚度是影响纤维性能的关键因素。
The result showed that the preoxidation temperature and laying thickness had a critical effect on the properties of the fiber.
添加剂a、B的加入提高了氧化温度和速度,所得氧化膜性能优良。
The temperature and rate of oxidation were raised by the addition of a and b, and oxide film...
结果表明,化学镀镍层能显著提高金刚石的热稳定性和抗氧化温度。
The results showed that the nicked deposit could obviously increase the thermostability, compression strength and oxidation resistance of diamond.
结果表明,随着氧化温度的升高和氧化时间的延长,样品的氧化程度逐渐增加。
The results showed that the degree of oxidation increased gradually with the increasing of oxidation temperature and oxidation time.
利用X-衍射、扫描电镜研究了草酸钴氧化温度对氧化产物、及其相应还原钴粉性能的影响。
The effect of oxidation temperature of oxalic acidic cobalt on the oxidized product and properties of reduced Co powder are studied by X-Ray, SEM.
在所得到的氧化图上清楚地显示了氧化水平、氧化膜的组成、氧化温度及合金成分之间的关系。
The oxidation level, the composition of the oxide film, the oxidative temperature and the relation between constituents of the alloy are clearly shown on the diagram.
使用“简约急剧氧化温度”和“相对急剧氧化速率”指标考察合金钎料在高温下的抗氧化稳定性。
The recommended correspondent parameters are"Brief temperature of the sudden oxidation" and"Relative rate of the sudden oxidation".
考察了氧化温度、催化剂负载量、氧化时间、催化剂用量、氧化剂加入量等工艺条件对脱硫率的影响。
The effects of reaction temperature, catalyst loading amount, reaction time, catalyst amount and oxidant amount on desulfurization were studied.
结合聚晶金刚石的差热曲线和SEM照片,确定以差热曲线的起始氧化温度作为其热稳定性的表征温度。
Combining the DTA curves and the SEM micrographs of PCD, we ascertained the starting oxidation temperature on DTA as the characteristic temperature of thermal stability.
以空气作为氧化气氛,考察了氧化温度、氧化停留时间、中间相含量对中间相沥青纤维不熔化处理的影响。
Influence of mesophase content, oxidation temperature and oxidation residence time on the non fusible treatment of mesophase petroleum pitch fibre was investigated under air atmosphere.
指出预氧化过程中影响纤维结构与性能变化的主要因素有预氧化温度、预氧化时间和对纤维的拉伸倍数等。
The primary factors affecting the structure and properties of the resulted fibers during pre-oxidation included pre-oxidation temperature and time and draw ratio.
通过经qPQ处理的工件的浸泡试验和盐雾试验探讨了盐浴氧化温度和时间对经q PQ处理的工件抗蚀性的影响。
Effect of both temperature and time of the liquid oxidizing on corrosion resistance of QPQ treated workpieces was investigated through soaking and salt spray tests.
涂层不仅在不同的温度下都能对炭素阳极起到较强的保护作用,而且还能起到提高炭素阳极初始剧烈氧化温度点的作用。
This coating not only can play a strong role on protecting carbon at different temperatures, but also increase the temperature point of initial acute oxidation on the carbon anode surface.
虽然在冰川消退期间二氧化碳含量的变化与温度的变化密切相关,但它显然滞后于冷却期间的温度。
Although change in carbon dioxide content closely follows change in temperature during periods of deglaciation, it apparently lags behind temperature during periods of cooling.
当然,二氧化碳与温度的相关性并不能确定是大气成分的变化导致了气候变暖或变冷的趋势,还是它们本身造成的。
The correlation of carbon dioxide with temperature, of course, does not establish whether changes in atmospheric composition caused the warming and cooling trends or were caused by them.
来自Vostok 地核的其他数据显示,甲烷气体也与温度和二氧化碳密切相关。
Other data from the Vostok core show that methane gas also correlates closely with temperature and carbon dioxide.
如果大气中的甲烷和二氧化碳像地球最早期的大气那样丰富,那么地球的温度对今天生活的大多数物种来说可能太热了。
If atmospheric methane and carbon dioxide were as abundant now as they were in Earth's earliest atmosphere, the planet's temperature would likely be too hot for most species living today.
在远离太阳的外太阳系,在木星轨道之外,温度低到足以使冰从水以及甲烷和二氧化碳等气体中形成。
Far from the sun, in the outer solar system, beyond Jupiter's orbit, temperatures are low enough to permit ices to form out of water and out of gases like methane and carbon dioxide.
二氧化碳是第二大重要的温室气体,它阻止我们的大气散热,并通过温室效应增加全球温度。
Carbon dioxide is the second most important greenhouse gas, trapping heat in our atmosphere and increasing global temperatures via the greenhouse effect.
当我们的太阳后来温度变得更高时,早期细菌持续清除大气中的二氧化碳和甲烷,使地球的气候不至于变得太热而无法维持生命的存在。
When our Sun later became hotter, the continued removal of atmospheric carbon dioxide and methane by early bacteria kept Earth's climate from becoming too hot to sustain life.
温度上升将融化世界范围内的冻土层,释放更多的二氧化碳和甲烷,这将导致温度的进一步升高。
Rising temperatures will melt the world's regions of permafrost, releasing more carbon dioxide and methane, which will raise temperatures even further.
如同闪烁开关一样,温度和二氧化碳浓度也在气候的转换中一同回转。
Like a flickering switch, temperatures and carbon dioxide concentrations were gyrating up and down during this climate transition.
如果大气中的二氧化碳含量翻倍,那么全球的平均温度便会上升。
Double the amount of carbon dioxide in the atmosphere and the average global temperature will go up.
通过控制照明、温度、湿度、二氧化碳和水,可以保证全年产量的稳定。
Stable production is guaranteed throughout the year by controlling lighting, temperature, humidity, carbon dioxide and water.
“基本物理学知识是,如果二氧化碳增加则温度上升,”她说。
"The basic physics is that if carbon dioxide increases then the temperature goes up," she said.
储藏在这个深度,又受到更高的压力和温度的控制,二氧化碳应该会减少活性,能够无限期地封闭在那里。
Stored at this depth, under higher pressure and temperatures, the carbon dioxide should be less buoyant and remain trapped indefinitely.
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