Abstract
With the development of computer technology, the simulation of fabrics has been widely used in many aspects of production and life. This paper focuses on the physical performance of a specific fabric under a quasi-steady-state flow field, which more realistically restores the movement of the fabric in low-speed airflow. It is combined the quasi-steady-state mechanical model based on aerodynamic theory with the classical structural mechanics model of cloth. By cyclically calculating the displacement and deformation of the cloth dot at different times, the cloth motion animation can be obtained. The experimental results show that through the combination with the Mass-Spring Model and the Non-planar Vortex Lattice Method, the fabric simulation effect with third dimension can be obtained.
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References
Lai, Q.: Research on cloth dynamic simulation based on noise function in random wind field. Southwest Jiaotong University Master Degree Thesis (2015)
Liu, Y.: Study on the static aeroelasticity for flexible aircrat based on non-planar vortex lattice method. Eng. Mech. 35(2), 249–256 (2018)
Hui, Z.: Real-time collision detection method for fluid and cloth. J. Comput. Aided Des. Comput. Graph. 30(4), 602–610 (2018)
Zhou, S.: The research of cloth automatic tearing based on mass-spring model. Master Degree of South China University of Technology (2012)
Aijun, Z.: Structural deformation and simulation of multi-bar jacquard fabrics. J. Text. Res. 37(12), 140–145 (2016)
Dan, Z.: Simulation study of nonlinear active air suspension based on differential geometry. J. Chang’an Univ. 38(4), 103–110 (2018)
Sun, M.: Structural modeling and attitude control of very flexible aircraft. Degree of Master to Nanjing University of Aeronautics and Astronautics (2018)
Zhang, Y.: Exploration of model of venturi flowmeter under transient flow by fluid simulation. Theory Pract. 39(1), 10–13 (2019)
Chen, T.: Numerical methods for the nonlinear aeroelastic problems with large amplitude geometric deformations. The Degree of Doctor to Northwestern Polytechnical University (2017)
Bo, K.: Research of the sailboard sliquid dynamical performance and the optimal route. The Degree of Doctor to Wu’han University (2005)
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Wang, H., Ding, Y., Yang, Q., Pu, H. (2020). Cloth Simulation Algorithm Based on the Mass-Spring Model and the Non-planar Vortex Lattice Model. In: Hung, J., Yen, N., Chang, JW. (eds) Frontier Computing. FC 2019. Lecture Notes in Electrical Engineering, vol 551. Springer, Singapore. https://doi.org/10.1007/978-981-15-3250-4_72
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DOI: https://doi.org/10.1007/978-981-15-3250-4_72
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