PDF全文下载:20160100087
李旭东, 王文秀, 刘元海, 孙护国, 王玉刚, 孔光明, 穆志韬
(海军航空工程学院 青岛校区, 山东 青岛 266041)
摘要: 铝合金短裂纹扩展行为与长裂纹扩展行为差别很大,而在铝合金结构中短裂纹阶段占据构件疲劳寿命的90%以上。通过对线弹性裂纹扩展模型进行修正,得到了改进后的弹塑性短裂纹模型,并利用LY12CZ铝合金材料进行验证性实验。结果表明:改进后的模型能够统一表征弹塑性短裂纹和线弹性长裂纹的扩展行为。这拓展了裂纹扩展行为的预测范围,对于铝合金构件的寿命预测和损伤容限评估具有重要的参考价值。
关键词: 铝合金; 弹塑性疲劳短裂纹; 裂纹扩展表征; 裂纹扩展速率
中图分类号: TG 171;V 252 文献标志码: A
Elasticplastic Fatigue Short Crack Propagation Analysis of Aeroaluminum Alloy
LI Xudong, WANG Wenxiu, LIU Yuanhai, SUN Huguo, WANG Yugang, KONG Guangming, MU Zhitao
(Qingdao Campus of Naval Aeronautical Academy, Qingdao 266041, China)
Abstract: Short crack propagation behavior is significantly different from relatively long crack, which takes more than 90% of the whole structure fatigue life. The thesis proposed a modified elasticplastic short crack propagation characterization model based on the traditional LEFM model, which is verified by experimental results on LY12CZ aluminum alloy. Results indicate that the modified model is able to characterize both short and long crack propagation behavior, expanding the region to be precisely predicted, which is remarkably important for fatigue life prediction and damage tolerant analysis of aluminum structure.
Key words: aluminum alloy; elasticplastic fatigue short crack; crack growth characterization; fatigue crack growth rate
收稿日期: 20141120
基金项目: 国家自然基金面上项目(11272173).
作者简介: 李旭东(1984—),男,讲师
文章编号: 16726987(2016)01008704; DOI: 10.16351/j.16726987.2016.01.018