To control the lateral thick difference of rapid solidification strip, the single-roll cooling interface is applied.
本工作采用单辊辊面为冷却介面,研究控制快速凝固带材的横向厚差的方法。
Optimum profile, shape and thickness difference of strip can be obtained by means of changing stress distribution of load on the surface of strip.
通过改变轧辊、板带表面的应力分布,来得到理想的带材凸度、板形和厚差。
In the twin cooling-strip and twin roll rapid solidification method, the metal strip has lateral thick difference.
采用双辊法和双带法制备的快速凝固带材,存在着较大的横向厚差。
The crux in producing the strip is to reduce the difference in heights between various patterns as small as possible.
生产组合花纹板的关键在于使不同形状花纹高度差尽可能地小。
There are great difference between these two treatments and the comparison in plant average height, the average root strip-number, the average biomass and the root collar.
两种处理在苗木平均高、平均根条数、苗木平均生物量及根茎比对照均有显著的差异。
With the increasing of strip width, the transverse difference of front tension stress decreases firstly, and then increases.
随着板宽的增加,前张应力沿横向的差距先减小后增大。
With the increasing of strip width, the transverse difference of front tension stress decreases firstly, and then increases.
随着板宽的增加,前张应力沿横向的差距先减小后增大。
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