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熔炼温度 meaning in Chinese

smelting point
smelting temperature

Examples

  1. How is melt temperature controlled
    如何控制熔炼温度
  2. Moreover , the heredity of al and al alloys own structure morphologies has been discussed . block or flack - like tial and bar - like or particles tib2 can be obtained by means of fluoride salt method melting at 800 c ~ 1100c under the other same condition
    用氟盐法制备中间合金时,在其它条件相同的情况下,改变熔炼温度( 800 1100 )可以得到含有块状和针片状形态的tial _ 3晶体和条状与颗粒状tib _ 2化合物的中间合金。
  3. 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。
  4. It is proved by quantitative analysis that with the content of titanium lower and tungsten higher in the alloy , the proportion of titanium to tungsten lowers little by little in the ( tiw ) c reforcement ; particles are smaller in size and more in quantity in 10vol % composites than in 20vol % one
    在前一部分的研究基础之上,分析得出:在本实验条件下,当熔体的熔炼温度较低时,熔体中增强颗粒形成的数量少、尺寸大(黑心大) 、并有大量的共晶组织。
  5. Experimental results show that the order of fluoride salt being put in and flux type also influences the phases constitution , morphology , distribution and absorbent rate of ti and b . the experiments on remelting master alloys and al or al alloys at a certain temperature range show that the phases constitution and size have a remarkable heredity
    试验结果表明,不同的氟盐加入顺序和熔剂种类的不同也直接影响着中间合金中化合物的相组成、形态、分布以及中间合金中ti 、 b的实收率等。在用纯钛颗粒法制备中间合金时,熔炼温度的改变只能影响tial _ 3晶体的尺寸大小,而无法改变其形态。
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Related Words

  1. 熔炼工段
  2. 熔炼周期
  3. 熔炼条件
  4. 鼓风炉熔炼
  5. 矿石熔炼
  6. 热熔炼
  7. 氧化熔炼
  8. 分离熔炼
  9. 熔炼损失
  10. 反射炉熔炼
  11. 熔炼条件
  12. 熔炼完成
  13. 熔炼序次
  14. 熔炼一炉金属
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