论文信息 - Study on boundary conditions considering unwinding velocity in transient unwinding equations of motion

Study on boundary conditions considering unwinding velocity in transient unwinding equations of motion

The unwinding behavior of thin cable has been studied in textile engineering. Recently, J.W. Lee derived transient equations of motion for an unwinding cable. Thus, this paper discusses numerical simulations of unwinding behavior as compared to experiments. The cable unwinding system is modeled using cylindrical coordinates, and Hamilton’s principle in an open system is used to represent the mass change of the cable in the control volume. In a transient equation of unwinding motion, the transient-state response is affected by twopoint boundary conditions, such as the guide-eyelet point and the lift-off point. In previous research, only the unwinding velocity at the guide-eyelet point defined the boundary. Here, a boundary condition at the lift-off point is also considered in the unwinding velocity along with the unwinding length of cable in the control volume. The results of this study show that transient equations of motion should be derived by considering angular acceleration because of time-varying angular velocity.

Wan-Suk Yoo | Jin-Seok Jang | Kun-Woo Kim | Jaewook Lee

[1] Wan-Suk Yoo,et al. Derivation of equations of motion of an unwinding cable from a cylindrical spool package , 2011 .

[2] W. Yoo,et al. Unwinding motion of cable by taking into consideration effect of bending on cable , 2014 .

[3] D. McIver,et al. Hamilton's principle for systems of changing mass , 1973 .

[4] T. Ghosh,et al. On unwinding yarn from a cylindrical package , 1992, Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences.

[5] Daphne Ge . Padfield,et al. The motion and tension of an unwinding thread. I , 1958, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[6] W. Yoo,et al. Unwinding characteristics of thin cables for inner and outer dispensers , 2013 .

[7] Jae-Wook Lee,et al. Effect of gravity and tangential air resistance on unwinding cable , 2012 .

[8] Wan-Suk Yoo,et al. Verification of simulation for unwinding motion of cable in water by physical experiment , 2014 .

[9] K. Moffatt. Vortex Dynamics: The Legacy of Helmholtz and Kelvin , 2006 .

[10] Wan-Suk Yoo,et al. Transient and steady-state analysis of a thin cable unwinding from a pay-out dispenser , 2013 .

[11] K. Bathe. Finite Element Procedures , 1995 .

[12] Jae-Wook Lee,et al. Prediction of unwinding behaviors and problems of cables from inner-winding spool dispensers , 2012 .