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论文:2018,Vol:36,Issue(4):644-648 |
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引用本文: |
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赵昆, 王生楠. 基于缺口分析原理的裂纹扩展速率新模型[J]. 西北工业大学学报 |
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Zhao Kun, Wang Shengnan. A New Crack Propagation Model Based on the Notch Analysis Methodology[J]. Northwestern polytechnical university |
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| 基于缺口分析原理的裂纹扩展速率新模型 |
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| 赵昆, 王生楠 |
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| 西北工业大学 航空学院, 陕西 西安 710072 |
| 摘要: |
| 针对金属结构疲劳裂纹扩展速率的模型进行了相关研究,提出了一种新的裂纹扩展速率模型。该模型在进行裂纹扩展速率分析时,仅需要考虑名义应力及临界断裂应力,相较于传统的应力强度因子分析方法,该方法更加简单有效。通过应用已有材料Al2024-T351及Al7075-T6的试验数据对该方法进行了曲线拟合,并与现有方法所得到的裂纹扩展曲线进行了对比。结果表明新方法与传统方法获得的裂纹扩展曲线走势大致相同,并且对裂纹发生扩展行为的低速率及高速率区域能够提供更好的描述,证明了新模型具有较强的实用性。 |
| 关键词:
裂纹扩展速率
Weiss缺口理论
名义应力
曲线拟合
裂纹尖端
MATLAB
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| A New Crack Propagation Model Based on the Notch Analysis Methodology |
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| Zhao Kun, Wang Shengnan |
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| School of Aeronautics, Northwestern Polytechnical University, Xi'an 710072, China |
| Abstract: |
| In this paper, the fatigue crack propagation model of the metal structure is studied, and a new crack propagation rate model is proposed. Compared with the traditional method, only the nominal applied stress and the critical fracture stress are considered in the new method, and the new one is much easier and more efficient. By analyzing the 2024-T351 and 7075-T6 aluminum alloy materials test data, the new model is validated and the results are compared with the classical method of crack propagation. The result shows the new model has a similar trend with the existing crack propagation curve, and provides a better description for the low rate and high rate area, it also shows a strongly practicability. |
| Key words:
crack propagation rate
Weiss notch method
nominal applied stress
curve fitting
crack tip
MATLAB
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| 收稿日期: 2017-02-12
修回日期:
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| DOI: |
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| 作者简介: 赵昆(1987-),西北工业大学博士研究生,主要从事疲劳断裂、损伤研究。
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| 赵昆 在本刊中的所有文章 |
| 王生楠 在本刊中的所有文章 |
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参考文献: |
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[1] 陈传尧. 疲劳与断裂[M]. 武汉:华中科技大学出版社,2011 Chen Chuanyao. Fatigue and Fracture[M]. Wuhan, Huazhong University of Science and Technology Press, 2011(in Chinese)
[2] 王志智,聂学州,吴晓峰. 疲劳裂纹扩展速率统计分析[J]. 航空学报,1993,14(3):197-201 Wang Zhizhi, Nie Xuezhou, Wu Xiaofeng. Statistical Analysis of Fatigue Crack Growth Data[J]. Acta Aeronautica et Astronautica sinica, 1993,14(3):197-201(in Chinese)
[3] 石凯凯,蔡力勋,包陈. 预测疲劳裂纹扩展的多种理论模型研究[J]. 机械工程学报, 2014, 50(18):50-58 Shi Kaikai, Cai Lixun, Bao Chen. various Theoretical Models Study of Prediction Fatigue Crack Growth[J]. Journal of Mechanical Engineering, 2014,50(18):50-58(in Chinese)
[4] Wagner G, Ranc G, Bathias C, Paris P C. Fatigue Crack Initiation Detection by an Infrared Thermography Method[J]. Fatigue & Fracture of Engineering Materials & Structures, 2009(1):12-21
[5] Yokobori T. A Critical Evaluation of Mathematical Equations for Fatigue Crack Growth with Specid Reference to Ferrite Grain Size and Monotonic Yield Strength Dependence[J]. ASTM STP, 1979, 675:683-701
[6] Paris P, Erdogan F. A Critical Analysis of Crack Propagation Laws[J]. J Basic Eng,1963, 85(3):528-534
[7] Forman R G, Kearney V E, Engle R M. Numerical Analysis of Crack Propagation in Cylic-Loaded Structure[J]. J Basic Eng Trans ASME, 1967, 89:459-465
[8] Walker K. The Effect of Stress Ratio During Crack Propagation and Fatigue for 2024-T3 and 7075-T6 Aluminum[R]. Philadelphia:ASTM, Special Technical Publication 462, 1970
[9] 张杰,马永亮. 3种疲劳裂纹扩展速率模型比较[J]. 实验室研究与探索, 2012,31(8):35-38 Zhang Jie, Ma Yongliang. Comparison of Three Fatigue Crack Growth Rate Models[J]. Research and Exploration in Laboratory, 2012, 31(8):35-38(in Chinese)
[10] Weiss V. Analysis of Crack Propagation in Strain Cycling Fatigue[C]//Proc Tenth Sagamore Army Material Research Conference, Syracuse, New York, 1964
[11] Inglis C E. Stresses in a Plate Due to the Presence of Cracks and Sharp Corners[J].Trans of the Institute of Naval Architects, 1913, 55:219-241
[12] Neuber H. Theory of Stress Concentration for Shear-Strained Prismatical Bodies with Arbitrary Nonlinear Stress-Strain Law[J]. J Basic Eng Trans ASME, 1961, 28:544-550
[13] 吴学仁. 飞机结构金属材料力学性能手册[M]. 北京:航空工业出版社, 1997 Wu Xueren. Handbook of Mechanical Properties of Aircraft Structural Metals[M]. Beijing, Aviation Industry Press, 1997(in Chinese)
[14] Kang T K. Cyclic Deformation at a Cracktip[R]. Syracuse University, Syracuse, New York, 1972
[15] 崔洪斌,曲先强,马永亮,等. 裂纹扩展速率曲线拟合方法的比较研究[C]//2008全国MTS断裂测试研讨会, 成都, 2008:32-36 Cui Hongbin, Qu Xianqiang, Ma Yongliang, et al. Comparative Study on Curve Fitting Method of The Fatigue Crack Growth Rate[C]//MTS Fracture Test Symposium, Chengdu, China, 2008:32-36(in Chinese) |
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