合金的氢脆因子与氢气压力或电流密度之间呈相同的依赖关系。
The hydrogen embrittlement factor has the same dependence on the hydrogen pressure and charging current density.
通过理论分析或实际测试验证,在氢气压力容器的罐体外部可以进行动火打磨工作。
Through exoterica analyse or test validate in practice, worker can use fire to polish outside hydrogen pressure vessel.
讨论了温度、氢气压力、催化剂活性组分含量对苯部分加氢制备环己烯反应的影响。
The influence of temperature, hydrogen pressure and contents of active component in catalysts are discussed.
钌的负载量、反应温度、反应时间、氢气压力等条件对催化反应性能具有重要的影响。
The amount of Ruthenium loading, reaction temperature, reaction time and hydrogen pressure have significant impacts on the catalytic performance.
结果表明,温度对氢化反应的异构化影响较大,氢气压力和催化剂浓度对异构化的影响相对较小。
The research showed that temperature affected the isomerism most, then the pressure of hydrogen and the concentrations of catalyst.
反应时间、温度、氢气压力和溶剂体积对丙酸甲酯加氢转化率和目标产物丙醇选择性都有很大的影响。
The conversion of methyl propionate and the selectivity to propanol were obviously affected by reaction time, reaction temperature, hydrogen pressure and solvent volume.
详细探讨了9908型催化剂在不同氢化温度、氢气压力以及催化剂浓度下对氢化油固体脂肪含量以及反式脂肪酸的影响。
The effects of various hydrogenated temperatures, pressures and concentrations of 9908 catalyst on the solid fat content and trans fatty acids contents of hydrogenated oils were studied.
我们从大气压力(地球表面的空气压力)的一立方英寸氢气开始。
We will start with a cubic inch of hydrogen at atmosphere pressure (or the air pressure at the earth's surface).
我们从大气压力(地球表面的空气压力)的一立方英寸氢气开始。
We will start with a cubic inch of hydrogen at atmosphere pressure (or the air pressure at the earth's surface).
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