论文信息 - De-wrinkling of pre-tensioned membranes

De-wrinkling of pre-tensioned membranes

Thin membranes are used in the spacecraft industry as extremely lightweight structural components. They need to be stiffened, usually by applying discrete forces, and this increases their susceptibility to wrinkling in regions where high tensile stresses develop. We consider a regular polygonal membrane uniformly loaded at its corners by equal forces and we prevent wrinkle formation by trimming the edges of the polygon into very gentle curves. We confirm this performance through simple physical experiments using Kapton, a typical membrane material and, using computational analysis, we show how the distribution of compressive stresses, responsible for causing wrinkles, dissipates following trimming. Finally, we accurately predict the required level of trimming for any number of sides of polygon using a simple, linear model, which invokes a plate-bending analogy.

Keith A. Seffen | As Bonin | K. Seffen | A. Bonin

[1] C. Calladine. The static–geometric analogy in the equations of thin shell structures , 1977, Mathematical Proceedings of the Cambridge Philosophical Society.

[2] S. Pellegrino,et al. Prediction of Winkle Amplitudes in Square Solar Sails , 2003 .

[3] Keith A. Seffen,et al. Optical space telescope structures: The state of the art and future directions , 2009, The Aeronautical Journal (1968).

[4] S. Timoshenko,et al. Theory of elasticity , 1975 .

[5] Wanping Zheng,et al. High-Fidelity Wrinkling Analysis of Membrane Structures and Elliptical Cut Optimization , 2008 .

[6] Martin M. Mikulas,et al. Rapid Structural Assessment Approach for Square Solar Sails Including Edge Support Cords , 2003 .

[7] G. Taylor,et al. The Use of Soap Films in Solving Torsion Problems , 1917 .

[8] Keith Patterson,et al. Shape Correction of Thin Mirrors , 2011 .

[9] James Roger P. Angel,et al. Flat membrane mirrors for space telescopes , 2000, SPIE Optics + Photonics.