Pauline Brumm, Nicola Ciotta, Hans Martin Sauer, Andreas Blaeser, Edgar Dörsam
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引用次数: 3
Abstract
We use deep learning (DL) algorithms for the phenomenological classification of Saffman-Taylor-instability-driven spontaneous pattern formation at the liquid meniscus in the fluid splitting in a gravure printing press. The DL algorithms are applied to high-speed video recordings of the fluid splitting process between the rotating gravure cylinder and the co-moving planar target substrate. Depending on rotation velocity or printing velocity and gravure raster of the engraved printing cylinder, a variety of transient liquid wetting patterns, e.g., a raster of separate drops, viscous fingers, or more complex, branched liquid bridges appear in the printing nip. We discuss how these patterns are classified with DL methods, and how this could serve the identification of different hydrodynamic flow regimes in the nip, e.g., point or lamella splitting.
我们使用深度学习(DL)算法对凹版印刷机中流体分裂中液体半月板处的saffman - taylor -不稳定性驱动的自发图案形成进行了现象学分类。将该算法应用于凹印滚筒与共移动平面靶基板之间流体分裂过程的高速视频记录。根据所刻印刷滚筒的旋转速度或印刷速度和凹印光栅,在印刷钳中出现各种瞬态液体润湿图案,例如,由分离的液滴、粘性手指或更复杂的分支液体桥组成的光栅。我们讨论了如何用DL方法对这些模式进行分类,以及如何将其用于识别nip中不同的流体动力流动状态,例如,点或片层分裂。
期刊介绍:
Journal of Coatings Technology and Research (JCTR) is a forum for the exchange of research, experience, knowledge and ideas among those with a professional interest in the science, technology and manufacture of functional, protective and decorative coatings including paints, inks and related coatings and their raw materials, and similar topics.
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