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复合材料学报 2007

基于非线性本构关系的复合材料风机叶片有限元极限分析与设计

, PP. 174-183

张春丽,黄争鸣,董国华

Keywords: 桥联模型,有限元,风机叶片,复合材料结构,极限分析,强度设计

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Abstract:

为了研究具有三维复杂构形的复合材料风机叶片的逐次破坏过程和极限承载能力,将复合材料细观力学非线性本构理论桥联模型与有限元软件ABAQUS通过用户子程序UGENS结合起来对风力发电机叶片结构进行极限强度分析。只需提供纤维和基体的材料性能参数、纤维体积含量以及蒙皮和增强筋的铺层数据包括铺设角、层厚和铺层数,就可预报出复合材料复杂叶片结构的整体承载能力以及叶片破坏所处的位置,为正确评估和合理设计风机叶片结构提供了一种简便有效的分析方法。以一种20kW风机叶片为例,用此方法实现了新型复合材料叶片结构的极限分析和合理设计,提高了叶片的强度和刚度,有效降低了叶片的重量。本文中的方法同样适用于其它复合材料复杂结构的极限分析与强度设计。

References

[1]	章伟星, 许发彦, 陈有芳, 等. 600kW风力发电机叶片计算评估 [J]. 风力发电, 2001, 61(2): 37 -42. Zhang Weixing, Xu Fayan, Chen Youfang, et al. Evaluation of 600kW wind turbine blade [J]. Wind Power Generation, 2001, 61(2): 37 -42.
[2]	Oh S Y, Song O, Librescu L. Effects of pretwist and presetting on coupled bending vibrations of rotating thin-walled composite beams [J]. International Journal of Solids and Structures, 2003, 40(5): 1203 -1224.
[3]	Saravanos D A. A shear beam finite element for the damping analysis of tubular laminated composite beams [J]. Journal of Sound and Vibration, 2006, 291(3): 802 -823.
[4]	Kong C, Bang J. Structural investigation of composite wind turbine blade considering various load cases and fatigue life [J]. Energy, 2005, 30(11): 2101 -2114.
[5]	Huang Z M. Simulation of the mechanical properties of fibrous composites by the bridging micromechanics model [J]. Composites Part A: Applied Science and Manufactur-ing, 2001, 32(2): 143 -172.
[6]	Ladean R, McKittrick. Analysis of a composite blade design for the AOC15/50 wind turbine using a finite element model [M]. SANDIA, 2001: 2001 -1441.
[7]	JB/T 10194-2000. 中华人民共和国机械行业标准. 风力发电机组叶轮叶片 [S]. 21 -42.
[8]	陈余岳. 大型风力机玻璃钢叶片设计 [J]. 玻璃钢/复合材料, 1998, 4(4): 17 -20. Chen Yuyue. Design of large GRP wind turbine blades [J]. Fiber Reinforced Plastics/Composite, 1998, 4(4): 17 -20.
[9]	张锦南. 300kW大型风力机叶片 [J]. 材料导报, 2001, 15(2): 59 -60. Zhang Jinnan. 300kW large wind turbine blade [J]. Materials Review, 2001, 15(2): 59 -60.
[10]	TPI Composites, Inc. Blade manufacturing improvements, development of the ERS-100 blade: Final project report [M]. Sandia National Laboratories of the United States Department of Energy Press, 2001: 2001 -1381.
[11]	TPI Composites, Inc. Blade manufacturing improvements, remote blade manufacturing demonstration [M]. Sandia National Laboratories of the United States Department of Energy Press, 2003: 2003 -0719.
[12]	Bechly M E, Clausen P D. Structural design of a composite wind turbine blade using finite element analysis [J]. Compu-ters & Structures, 1997, 63(3): 639 -646.
[13]	黄争鸣. 大型复合材料风力机叶片及其制备方法: 中国, 200510023488 . 2005 -10 -23.
[14]	Huang Zhengming (黄争鸣), Ramakrishna S. Modeling mechanical properties of knitted fabric composites part Ⅲ : Applications [J]. Science & Engineering of Composite Materials, 2002, 10(3): 213 -240.

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