| 1. | When given cold setting , the granulated metal materials were obtained
同时配以相应的冷却条件,即能得到一种金属材料颗粒化的方法。 |
| 2. | Thus , an optimized gettering process obtained was 800 and following a slow cooling
氦微孔吸除热处理合适温度条件是800 ,冷却条件是慢降温方式。 |
| 3. | Exyernal motor and oil pump enable good ventilating and cooling conditiond , safety operation and prolonged service life
由于电机、油泵外置,其通风冷却条件好,运行安全,寿命长。 |
| 4. | Ths will show on a dodge and hide after 4 seconds . this does not take into account rage / cooldown conditions
这将使按钮在闪避成功后显示,然后在4秒后隐藏。这个不包含射程/冷却条件(你可以自己增加) 。 |
| 5. | The transformers can be cooled by air naturally ( an ) or forced air cooling ( af ) . cooled by an , transformers can oprerate up to 100 % of its rated output . in af mode , output can be increased by 40 50 % of its rated output
风冷系统:变压器在自然冷却条件( an )下,可在额定容量下长期安全运行,强迫空气冷却( af )时,变压器按容量大小相同,可增容40 ~ 50 % 。 |
| 6. | The analysis results of psd and sem suggest that the size of wtr powders gets down to several micrometer from tens of millimeter with wider distribution . sem reveals that the shape of wtr powder is irregular and the large
9 (占pp全部结晶的百分比) ;在同样成型和冷却条件下,加入单独碾磨的wtr得到的复合材料则未出现p一晶,表明p一晶的产生与wtr的形态结构有关,共碾磨导致卜晶的形成。 |
| 7. | Gives a procedure for predicting the freezing probability under nonlinear cooling conditions and by combining that with the simulation model of rectangular containers , obtains quantitative results of the impacts of the additive on ice storage
给出了非匀速冷却条件下结冰概率的计算方法,并将其与板单元蓄冰装置的数学模型相结合进行数值求解,定量地预测了加入成核添加剂对蓄冰过程的影响。 |
| 8. | The performance consistence of ab5 alloy in mass production is influenced by not only the quenching condition , but also the impurities such as fe , mg in mischmetal and the melting technology including the unit output , melting temperature and time , atmosphere , furnace frequency etc
合金性能波动除受浇铸时的冷却条件影响外,还与稀土原料中铁、镁等杂质及熔炼工艺因素(包括单位产量、熔炼温度、时间气氛及炉频等因素)有关。 |
| 9. | Based on the theories of gear engagement , contact analysis , friction and heat transfer , a three - dimensional finite element model of gear tooth was established to investigate temperature distributions and variations along the contact path over a range of applied loads and operating speeds with consideration of lubrication conditions . sensitivity analysis of surface temperature to gear configuration , frictional heat flux , heat transfer coefficients , and oil and ambient temperature was conducted and the major parameters influencing surface temperature were evaluated
本文基于齿轮啮合原理、轮齿接触分析、摩擦学和传热学,以有限元分析方法和理论分析计算相结合为手段并以实验测量结果作为参考,建立了适用于工业应用并具有较高计算精度的高速齿轮传动轮齿温度分析的模型和方法,系统地分析了轮齿本体温度的大小和分布以及齿轮几何、载荷及转速和润滑冷却条件等对轮齿本体温度的影响。 |
| 10. | The neutron flux extracted to different angles has been calculated . finally , the heat depositions in the target , the reflector and the moderator have been calculated . based on these results , the temperature and stress distribution hi tungsten target under different cooling condition have been calculated too
最后计算了靶、反射体以及不同慢化器(水、液态氢、液态甲烷)中的热量沉积,并以此为依据,利用工程软件ideas进一步计算了各种冷却条件下,靶中温度场与应力场分布。 |
