再结晶温度

  • 网络recrystallization temperature
再结晶温度再结晶温度
  1. Ti含量对高强IF钢再结晶温度和力学性能的影响

    Effect of Ti content on recrystallization temperature and mechanical properties of high strength if steel

  2. 简要介绍了近年来Si、Al、K掺杂对钼丝再结晶温度的提高和高温力学性能的改善方面的研究,同时综合分析了Si、Al、K掺杂对钼的作用机理。

    The recent studies on the increase of recrystallization temperature and the improvement of high temperature mechanical property in the Si-Al-K-doped molybdenum wire are briefly introduced . The mechanism of Si - Al-K doping is also analyzed .

  3. 低聚体的存在增加纤维的吸水量,这种增塑作用使聚酰胺-6纤维的Tg和再结晶温度大大下降。

    T g and recrystallization temperature of Nylon-6 fibre are greatly reduced by the plasticizing effect of oligomer and water .

  4. Gd对Ag的再结晶温度的影响及对抑制回复软化的作用甚小。

    Gd additive had small influence on the recovery and recrystallization process of Ag .

  5. Cu3Zr在较高使用温度下不易聚集长大,可提高合金的再结晶温度,从而大大改善合金的高温机械性能。

    Because Cu_3Zr is difficult to coalesce at high temperatures , the recrystallization temperature increases and the high temperature mechanical properties improve .

  6. Zr对Al-Li合金热轧板材的再结晶温度、各向异性和织构的影响

    Effect of zirconium on the recrystallization , anisotropy and texture in Al-Li alloys

  7. 同时Mn原子能显著提高铝合金再结晶温度,均匀化退火后Mn元素析出,降低了再结晶温度,并且低温再结晶速度小,扩大了再结晶区间。

    Mn atomic can significantly increased re-crystallization temperature of aluminum alloy . Mn element precipitated after homogenization annealing , reduced the re-crystallization temperature and the re-crystallization range expanded because of the low temperature re-crystallization rate .

  8. 纳米ZrO2弥散强化Pt的晶粒随着纳米ZrO2含量的增加而细化,且再结晶温度随之提高。

    When the amount of nano-ZrO_2 was increased , the grains of the nano-ZrO_2 dispersion strengthening platinum was fined and its recrystallization temperature was increased .

  9. 此外,根据理论分析,在高磁感取向硅钢中加入微量Sn可降低二次再结晶温度,这一结论与实验结果相吻合。

    According to theoretical analysis , an addition of Sn may decrease the secondary recrystallization temperature of high induction oriented silicon steel , and it is in agreement with the experimental result .

  10. 冷轧试样的Gleeble-1500模拟退火试验发现,试验钢的完全再结晶温度都在800℃以下。随着热轧卷取温度的提高,完全再结晶温度降低;

    Gleeble-1500 annealing simulation experiment of the cold-rolled specimen showed that the full recrystallization temperature for all experimental steels is below 800 ℃ .

  11. 结果表明:微量Cr能提高CuZn合金硬度和再结晶温度,Cr对合金性能的影响是通过沉淀强化来实现的,快速热轧淬火具有保留加工强化的效果,形变热处理还产生了组织强化。

    The results show that trace Cr can enhance Cu Zn alloy hardness and recrystallized temperature in the way of precipitation hardening . Rapid heat rolling and quenching can hold the effects of working hardening , and thermomechanical treatment can develop structure hardening as well .

  12. 而CSP工艺中较多的弥散细小分布的纳米级析出物不利于Y取向织构的增强。(4)试验钢的的名义再结晶温度为550℃-560℃。

    In the CSP process more distribution of nano-scale dispersion of small precipitates is not conducive to enhanced y orientation texture . ( 4 ) The name of the test steel recrystallization temperature of550 ℃ - 560 ℃ .

  13. 采用水浴量热法经1260℃加热,保温20min,水冷处理的连铸945钢的再结晶温度进行了测定。

    The recrystallization temperature of continual casting 945 steel was measured by use of the method of measuring heat with water_bath up to 1 260 ℃ .

  14. TYM钼合金轧制工艺与组织结构及再结晶温度的关系

    Relation of rolling process to metallurgical structure and recrystallization temperature of tym molybdenum alloy

  15. 在此基础上研究了高纯金、以Ag、Ge合金化和以Be等复合合金化的三种金的力学性能、再结晶温度及再结晶动力学。

    On the basis of above arguments the mechanical properties , recrystallization temperature and the kinetic of recrystallization of three types of gold ( high purity gold , gold alloying with Ag , Ge , and gold alloying with Be and some others ) were studied and discussed .

  16. 采用非动态再结晶温度下的预应变-淬火,提高马氏体相变形核率,可以超细化马氏体的板条晶片宽度,使之接近纳米量级水平(平均宽度达到120nm)。

    The lath width of martensite can be fined noticeably by pre-strained quenching at non-dynamic recrystallization to approach nanometer magnitude ( the average width is 120nm ) .

  17. 绝热温升的估算结果表明:在绝热剪切带内,温度达到了TB2钛合金的再结晶温度,但低于其相转变温度,这与合金发生剪切变形后的微观组织特点相一致。

    The estimation result of adiabatic temperatures rising indicates that the temperature in ASB is between the recrystallization temperature and phase transition point , and the result is also in agreement with the characteristic of the microstructure in ASB .

  18. 电脉冲处理对纯铜再结晶温度的影响

    Effect of Electric Pulse Modification on Recrystallizing Temperature of Pure Copper

  19. 再结晶温度、时间是立方织构形成的主要影响因素。

    The recrystallization temperature and time are the main factors .

  20. 掺杂提高钼丝再结晶温度的研究进展

    Research Progress on Raising Recrystallization Temperature of Doped Molybdenum Wire

  21. 在工业纯铜中加入微量锂能提高其再结晶温度。

    Trace lithium can improve recrystallization temperature of pure copper .

  22. 冷变形钢的再结晶温度及其影响因素

    Recrystallization Temperature of Cold Deformed Steel and Its Influencing Factors

  23. 连铸945钢再结晶温度的测定与分析

    The Measure and Analysis of Recrystallization Temperature of Continual Casting 945 Steel

  24. 淬火组织经回火后,相变再结晶温度有所降低。

    After tempering , structure inheritance reduces , the recrystallization temperature reduces .

  25. GB/T4106-1983钨丝二次再结晶温度测量方法

    Determination method for secondary recrystallization temperature of tungsten wire

  26. 锂对工业纯铜再结晶温度的影响

    Effect of Lithium on Recrystallization Temperature of Pure Copper

  27. 得出了完全再结晶温度和开始过烧温度。

    The fully recrystallization temperature and the on-set overheated temperature have also been obtained .

  28. 钪对铝锂合金再结晶温度的影响

    Effect of Scandium on Recrystallization of Aluminium-lithium Alloy

  29. 金属既可热锻(高于再结晶温度)也可冷锻。

    The metal can be forged hot ( above recrystallization temperatures ) or cold .

  30. 对一种铝镁合金的再结晶温度和再结晶形核机制进行了研究。

    The recrystallizing temperature of an Al-Mg alloy was determined with the recrystallization-nucleation mechanism studied .