加热温度和保温时间对组织的形态影响均较小。
Therefore heating temperature and holding time should be controlled strictly for thermal forge shaping of TC6 titanium alloy.
分析了加热温度和保温时间对涂料保护效果的影响。
Effect to coating by the heating temperature and holding time were analysed.
研究结果表明:加热温度和保温时间对钛合金显微组织影响较大。
The result shows that heating temperature and heat holding time have great influences on the microstructure of a TC6 titanium alloy.
实验表明,加热温度和保温时间是影响晶粒尺寸和均匀性两个重要的因素。
The results show that heating temperature and holding time are two important factors affecting the grain size and uniformity.
研究了锻造后的冷却速度对T10钢等用球化退火加热温度和保温时间的影响。
The influences of cooling rate after the forge on the heating temperature and time of apheroidized annealing of steel T10 was studied.
当加热温度和保温时间一定时,随着挤压次数的增加,二次加热组织的晶粒尺寸减小。
When remelted temperature and holding time are constant, with the increment of number times of extrusion the crystal grain becomes small.
研究利用低压脉冲电场技术制备的AZ91D镁合金在部分重熔过程中的组织演变,考察加热温度和保温时间对不同脉冲电压制备的AZ91D合金初生相形态和尺寸的影响。
The non-dendritic semi-solid magnesium alloy AZ91D is prepared by reheating the AZ91D alloy treated by low-voltage electric current pulse(LVECP) technique.
挤压稳定化温度、保温时间、加热方法和抗氧化组分的活性能影响抗氧化组分的分解速率。
The rate of antioxidant degradation is affected by extrusion temperature, holding time, heating methods and the activation energy of the antioxidants.
随着提高加热温度和延长保温时间,“上坡扩散”的富磷层深度和浓度将不断增加。
With increase of heating temperature and duration of heating time, the depth and concentration of phosphorous-enriched layer in uphill diffusion increases continuously.
分析讨论了试验工艺条件及工艺参数如混料条件、铝坯压缩条件和发泡中的加热温度、加热速度和保温时间对形成泡沫铝的影响。
The processing parameters, the effect of the mixing, the pressing parameter, the foaming temperature, heating rate and heat preservation time were studied.
加热温度及其梯度对氯离子回收的影响较大,载气流速和蒸馏时间的影响较小;提高加热温度和保温罩顶部温度有利于提高氯离子回收量。
The temperature and its gradient influenced the recovery rate of chloride ion remarkably while the influence of carrier gas velocity and time of distillation are less.
采用偏低的加热温度、适当的保温时间和小变形量、多道次的工艺制度可以明显改善这两种不锈钢的热加工性能。
Lower heating temperature, proper heating time, light reduction and multipass processes could be adopted to improve the hot ductility of the steels studied.
随着加热温度的升高和保温时间的延长,液相增加,晶粒主要通过原子扩散缓慢长大并发生球化。
Grains grow up slowly and are sphericized mainly through elements diffusion with increasing volume fraction of liquid as the increase of the isothermal temperature and holding time.
随着加热温度的升高和保温时间的延长,液相增加,晶粒主要通过原子扩散缓慢长大并发生球化。
Grains grow up slowly and are sphericized mainly through elements diffusion with increasing volume fraction of liquid as the increase of the isothermal temperature and holding time.
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