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基于三维有限元解的紧凑拉伸试样应力强度因子计算公式 被引量:5

Calculation Formula for Stress Intensity Factors of CT Specimens based on Three Dimensional Finite Element Solutions
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摘要 对标准紧凑拉伸(CT)试样的二维和三维应力强度因子有限元解进行了对比分析,基于三维有限元虚拟裂纹闭合法拟合了一种新的标准CT试样的应力强度因子计算公式,并采用ANSYS软件内嵌位移外推法进行了验证。结果表明:基于二维分析所得的应力强度因子计算公式计算结果与实际三维CT试样的具有较大的差异;在加载孔等效分布力一定的条件下,CT试样裂纹前沿大部分区域的应力强度因子与中心点的相近,且与厚度无关;拟合得到的三维CT试样裂纹前沿中心点的应力强度因子计算公式具有很高的精度,其计算结果与ANSYS软件内嵌位移外推法的相对误差在0.5%以内。 Two-dimensional and three-dimensional finite element calculations of stress intensity factors for standard compact tension(CT)specimens were compared and analyzed.And a new calculation formula of stress intensity factors for standard CT specimens was established based on the three-dimensional finite element virtual crack closure method and verified using displacement extrapolation method of ANSYS.The results show that great differences existed between the stress intensity factors from calculation formula based on the two-dimensional analysis and those of actual three-dimensional CT specimens.Under the certain equivalent distributed force on the load-hole,the stress intensity factors at the most crack front regions were similar to those at the center of the CT specimen and were independent of the thickness.The fitting calculation formula of stress intensity factors at the crack front center of three-dimensional CT specimens was of high precision.And the relative errors between the fitting calculation values and the results of the displacement extrapolation method of ANSYS were less than 0.5%.
作者 贾旭 胡绪腾 宋迎东
机构地区 南京航空航天大学能源与动力学院
出处 《机械工程材料》 CAS CSCD 北大核心 2015年第12期30-34,110,共6页 Materials For Mechanical Engineering
关键词 三维分析 CT试样 应力强度因子 有限元法 three dimension analysis CT specimen stress intensity factor finite element method
分类号 O346.1 [理学—固体力学]
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参考文献12

  • 1原航空工业部第三零-研究所.航空发动机结构完整性指南GJB/Z101-97[S].北京:[出版者不详],1997:36-44. 被引量:1
  • 2吕文林,陈俊粤,田德义.航空涡喷、涡扇发动机结构设计准则(研究报告)第二册:轮盘[R].北京:中国航空工业总公司发动机系统工程局,1997. 被引量:1
  • 3NEWMAN J C. Stress analysis of compact specimens including the effects of pin foading[J].ASTM STP, 1974,560 : 105 -105. 被引量:1
  • 4SRAWLEY ,I E. Wide range stress intensity factor expressions for ASTM method E399 standard fracture toughness specimens[J]. International Journal of Fracture, 1976,12(3): 475-476. 被引量:1
  • 5李旭东,穆志韬,贾明明.加载频率对航空铝合金腐蚀疲劳裂纹扩展速率的影响[J].机械工程材料,2014,38(7):50-52. 被引量:13
  • 6余圣甫,王铁琦,杨其良,沈满德.ZG20MnSi钢断裂韧度和疲劳裂纹扩展速率试验研究[J].机械工程材料,2005,29(6):17-19. 被引量:5
  • 7GARCIA-MANRIQUE J, CAMAS D, LOPEZ CRESPO P, et al. Stress intensity factor analysis of through thickness effects [J]. International Journal of Fatigue, 2013, 46: 58-66. 被引量:1
  • 8BAZANT Z P, ESTENSSORO L F. Surface singularity and crack propagation [J]. International Journal of Solids and Structures, 1979, 15(5): 405 -426. 被引量:1
  • 9TOWERS O L, SMITH A P. Stress intensity factors for curved crack fronts in compact tension specimens [J]. International Journal of Fracture, 1984, 25(2):43-48. 被引量:1
  • 10NEWMAN J C, YAMADA Y, JAMES M A. Stress intensity-factor equations for compact specimen subjected toconcentrated forces [J]. Engineering Fracture Mechanics, 2010, 77(6): 1025- 1029. 被引量:1

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机械工程材料
2015年 第12期

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