基于虚拟裂纹闭合技术的应变能释放率分析

复合材料学报, 2009, 26(2): 210-216.

基于虚拟裂纹闭合技术的应变能释放率分析

鲁国富 ^1, , 刘勇 ^2, , 张呈林 ^3,

1.南京航空航天大学,直升机旋翼动力学国家级重点实验室,南京,210016

2.南京航空航天大学,直升机旋翼动力学国家级重点实验室,南京,210016

3.南京航空航天大学,直升机旋翼动力学国家级重点实验室,南京,210016

基金项目: 民机专项科研项目

关键词：虚拟裂纹闭合技术 , 应变能释放率 , 复合材料层合板 , 有限元分析

Analysis of strain energy release rate based on virtual crack closure technique

基于虚拟裂纹闭合技术(VCCT),建立了复合材料层合板层间裂纹尖端的应变能释放率(SERR)三维有限元计算模型.该模型考虑了裂纹尖端大转动和离散单元形状变化对应变能释放率计算的影响,修正了裂纹尖端应变能释放率的计算方法.利用该模型计算了裂纹长度为15 mm和35 mm时纯Ⅰ型和纯Ⅱ型的应变能释放率,纯Ⅰ型应变能释放率分别为207 J/m2和253 J/m2;纯Ⅱ型应变能释放率分别为758 J/m2和1040 J/m2;计算值与试验值吻合得很好.同时,该模型计算了混合型不同比值R=(GⅡ/GⅠ+GⅡ)的长裂纹层合板层间断裂过程的应变能释放率,其中Ⅰ型和Ⅱ型应变能释放率计算值与试验平均值的最大误差为11.4%,最小误差为0.4%.该模型能有效计算裂纹尖端的应变能释放率.

参考文献

[1]	Tay T E.Characterization and analysis of delamination fracture in composite:An overview of developments from 1990 to 2001[J].Applied Mechanics Reviews,2003,56(1):1-32.
[2]	Pradhan B,Babu P R.Influence of ply sequence and thermoelastic stress field on asymmetric delamination growth behavior emanating from elliptical holes in laminated FRP composites[J].Journal of Engineering Materials and Technology,2008,130(1):1006-1015.
[3]	贺鹏飞,李京剑,Yuan C,Stern R,Clegg W J.从微孔洞起始的热冲击裂纹的数值研究--Ⅱ:能量释放率分析[J].复合材料学报,2002,19(5):79-83.He Pengfei,Li Jingjian,Yuan C,Stern R,Clegg W J.Initiation of crack from the pores in porous ceramics under thermal shock Ⅱ,Energy release rate[J].Acta Materiae Compositae Sinica,2002,19(5):79-83.
[4]	朱华东,矫桂琼,杨宝宁.缝合复合材料Ⅱ型层间断裂特性研究[J].复合材料学报,2001,18(2):85-89.Zhu Huadong,Jiau Guiqiong,Yang Baoning.Investigation into the effect of stitching in CFRP on mode Ⅱ delamination toughness[J].Acta Materiae Compositae Sinica,2001,18(2):85-89.
[5]	阎俊霞,王立君,徐凯龄,贾燕.纯弯曲Sandwich梁试样界面裂纹扩展的应变能释放率[J].复合材料学报,1999,16(1):72-76.Yan Junxia,Wang Lijun,Xu Kailing,Jia Yan.Strain energy release rate of crack propagation along the pure bend sandwich beam specimen[J].Acta Materiae Compositae Sinica,1999,16(1):72-76.
[6]	Raju I S.Calculation of strain-energy release rates with higher order and singular finite elements[J].Engineering Fracture and Mechanics,1987,28(3):251-274.
[7]	Miravete A,Jimenez M A.Application of the finite element method to prediction onset of delamination growth[J].Applied Mechanics Reviews,2002,56(2):89-105.
[8]	Krueger R,Minguet P J.Skin-stiffener debond prediction based on computational fracture analysis,NASA/CR-2005 -213915[R].Virginia:NASA,2005:5-7.
[9]	Krueger R,Goetze D.Influence of finite element software on energy release rates computed using the virtual crack closure technique,NASA/CR-2006-214523[R].Virginia:NASA,2006:7-14.
[10]	Quian W,Sun C T.Calculation of stress intensity factors for interlaminar cracks in composite laminates[J].Comaposite Science and Technology,1997,57(6):287-290.
[11]	Juntti M,Asp L E,Olsson R.Assessment of evaluation methods for the mix-mode bending test[J].Journal of Composite and Technology Reviews,1999,21(1):37-48.

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基于虚拟裂纹闭合技术的应变能释放率分析

Analysis of strain energy release rate based on virtual crack closure technique

参考文献