这对进一步研究板材弯曲成形智能化的识别和预测具有重要意义。
It is significant for further study of identification and prediction sheet forming intellectualization.
对进一步研究板材弯曲成形智能化控制的识别和预测提供了可靠依据。
It provides the theory base for further study of identification and prediction in intelligent control of sheet bending forming.
板材激光弯曲成形是一种新型金属板材柔性成形技术,与传统成形工艺相比具有显著优势。
Laser sheet bending is a new metal flexible forming process, which has shown more advantages in contrast to the classical metal forming.
板材成形中同样存在着计算坯料尺寸的问题,如弯曲件展开尺寸的计算,轴对称拉深件坯料尺寸的确定等。
The similar problem on computing blank size also exists in sheet forming, such as spreading size of bending piece, blank size of axial symmetry parts by deep drawing.
板材激光加热弯曲成形是近年来提出的一种先进的零件成形方法。
Laser heating and bending formation of sheet metal is an advanced forming method of component parts offered recently.
同激光沿直线扫描弯曲成形相比,用该方法能使板材在弯曲处获得良好的圆角过渡区,使板材的弯曲变形更光滑。
Compared with scanning along straight line, more smooth and round corner can be achieved by using parallel line method.
综合本文以上研究结果可以发现,等离子体弧柔性成形技术不仅可以应用于板材的直线弯曲成形中,还可以应用于板材三维复杂曲面成形生产中。
In summary, it can be found that the flexible forming technology using plasma arc can be employed not only in linear bending but also in 3d complex curved surface forming for sheet metal.
综合本文以上研究结果可以发现,等离子体弧柔性成形技术不仅可以应用于板材的直线弯曲成形中,还可以应用于板材三维复杂曲面成形生产中。
In summary, it can be found that the flexible forming technology using plasma arc can be employed not only in linear bending but also in 3d complex curved surface forming for sheet metal.
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