Establishment and analysis of thermo-fluid-solid coupling model of ink roller-ink under dynamic pressing contact

被引:0
作者
Hongyan Chu
Yingjie Hong
Caixia Zhang
Qi Chen
Ruilong Ding
Congbin Yang
机构
[1] Beijing University of Technology,Institute of Advanced Manufacturing and Intelligent Technology
[2] Beijing Key Laboratory of Advanced Manufacturing Technology,undefined
[3] Machinery Industry Key Laboratory of Heavy Machine Tool Digital Design and Testing Technology,undefined
来源
Journal of Mechanical Science and Technology | 2021年 / 35卷
关键词
Thermo-fluid-solid model; Elastohydrodynamic lubrication; Viscoelastic; Rubber; Elastic modulus;
D O I
暂无
中图分类号
学科分类号
摘要
In order to improve the printing quality, this study focused on the thermo-fluid-solid coupling process of ink roller-ink. One of the highlights of this study is to consider the influence of temperature on the rubber hyperelastic parameters, viscoelastic parameters, and ink viscosity. The other highlight is to improve the elastohydrodynamic lubrication theory and Hertz contact theory through the rubber elastic modulus, which is determined by the relaxation curve considering the temperature and working conditions. Furthermore, based on the improved theory, the thermo-fluid-solid coupling model of ink roller-ink was established. Finally, the effect of temperature on the coupling process was analyzed. The results show that under the working conditions, with increasing temperature from 20 °C to 40 °C, the contact half-width increases from 4.2335 mm to 4.4701 mm, and the minimum ink film thickness decreases from 0.5097 mm to 0.1410 mm, and the maximum ink pressure decreases from 0.6802 MPa to 0.6618 MPa.
引用
收藏
页码:2915 / 2927
页数:12
相关论文
共 42 条
  • [1] Chen F(2017)Pressure analysis on two-step high pressure reducing system for hydrogen fuel cell electric vehicle International Journal of Hydrogen Energy 42 11541-11552
  • [2] Zhang M(2020)Heat transfer and stress characteristics of additive manufactured FCCZ lattice channel using thermal fluid-structure interaction model International Journal of Heat and Mass Transfer 149 119187-559
  • [3] Qian J(2017)Effect of fin attachment on thermal stress reduction of exhaust manifold of an off road diesel engine Journal of Central South University 24 546-219
  • [4] Chen L(2020)Multi-ellipsoid contact elastohydrodynamic lubrication performance for deep groove ball bearing Tribology International 150 106367-1850
  • [5] Jin Z(2010)Effect of textured area on the performances of a hydrodynamic journal bearing Tribology International 44 211-727
  • [6] Yun S(2009)Influence of pressure and temperature dependence of thermal properties of a lubricant on the behaviour of circular TEHD contacts Tribology International 43 1842-164
  • [7] Kwon J(2010)A transient mixed elastohydrodynamic lubrication model for spur gear pairs Journal of Tribology 132 011501-275
  • [8] Lee D C(2017)Analytical, numerical and experimental analysis of the relationship between two rollers axes distance and the contact zone International Journal of Mechanical Sciences 131–132 722-259
  • [9] Shin H H(2012)The pressure distribution in nips of systems of flexible rubber-covered rollers International Journal of Mechanical Sciences 64 155-101
  • [10] Kim Y(2013)Two-dimensional elastic contact model for rubber covered rollers Plastics Rubber and Composites 42 269-520
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