1) Alloy energy band
合金能带
2) alumin um alloy strip
铝合金带
1.
The development of twin-roll casting t echnology and the experimental results of alumin um alloy strip cast-rolled on the experiment twin-roll caster in Jap an Saitama Institute of Technology were introduced.
介绍了双辊铸轧技术的发展 ,及其在日本崎玉工业大学实验轧机上铸轧铝合金带的实验结果 ,并对目前该工艺的 1 0项关键技术进行了分析和论
3) alloy strip steel
合金钢带
1.
Through controlling internal casing furnace temperature,alloy strip steel are crystallized and annealled.
弹簧、工具等合金钢带 ,通过内罩炉温控制进行再结晶退火 ,使工艺操作简便 ,退火后钢带组织均匀、性能稳定 ,轧制过程公差波动
4) NiTi alloy belt
NiTi合金带
1.
In this paper,the shape memory alloys(SMA) with special properties-NiTi alloy belts is composed in a component at the location where cracks(or damage)will most probablyemerge,and when matched with a computer monitoring system,the component becomes an intelligent composite component of NiTi alloy belts which can detect cracks automatically and controltleir growth actively.
根据复合工艺的特殊要求,提出了特性能优异的NiTi形状记忆合金薄带经特殊处理以后,将其复合于易产生裂纹(或损伤)的构件内,与微机监控系统相配合,利用NiTi合金带的特殊性能,实现对构件内裂纹的自动探测和控制。
6) alloy watch band
合金表带
补充资料:间接带隙(见半导体的能带结构)
间接带隙(见半导体的能带结构)
indirect band gap
I’ed接带隙indireet band gap见半导体的能带结构。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条