Eigenvalue Analysis of Oscillatory Variable State Paper Winder

Recent Advances in Solids and Structures Pub Date : 2001-11-11 DOI:10.1115/imece2001/pvp-25217

S. Launis, E. Keskinen

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Abstract

Winding is a paper finishing process, in which the full paper web is longitudinally cut and wound in narrower paper rolls to fit later to printing machines. The quality of the paper roll is measured in terms of uniform roundness and axially symmetric internal stress and stiffness distribution. Unfortunately dynamic effects disturb winding process so that out-of-roundness shape error profiles may accumulate to the rolls. The reason for this phenomenon is mechanical oscillation, in which the set of rolls and the three winding drums are in relative motion in normal direction of their rolling contact plane. The time evolution of this process is extremely complicated since the roll size as well as contact conditions and running frequencies are changing during the complete process. To avoid unwanted resonance crossings the system eigenstates have to be as first step analyzed and compared with the roll speed harmonics at each roll diameter. This analysis is carried out using linearized spring-mass model, whose parameters are updated according to the roll growth. The spring elements represent the local stiffnesses of roll-drum contacts in both normal and tangential directions, the effect of latter ones being actually a novel element introduced in this analysis.

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振荡变态卷纸机特征值分析

卷绕是一种纸张整理过程，在此过程中，整个纸卷被纵向切割并卷绕在较窄的纸卷中，以适应后来的印刷机。纸卷的质量是根据均匀的圆度和轴对称的内应力和刚度分布来衡量的。不幸的是，动态效应干扰了卷绕过程，使得不圆度形状的误差轮廓可能累积到卷筒上。造成这种现象的原因是机械振荡，其中一组轧辊和三个卷筒在其滚动接触平面的法向上相对运动。由于在整个过程中辊的尺寸、接触条件和运行频率都在变化，这一过程的时间演化非常复杂。为了避免不必要的共振交叉，必须首先对系统的特征态进行分析，并与各轧辊直径处的轧辊速度谐波进行比较。采用线性化的弹簧质量模型进行分析，该模型的参数根据轧辊的生长情况进行更新。弹簧单元表示法向和切向滚鼓接触的局部刚度，后者的影响实际上是本文分析中引入的一个新单元。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Recent Advances in Solids and Structures

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