研究了TC4钛合金和7475铝合金在应力比R=0.5,0和-1恒幅载荷下的长裂纹和小裂纹的扩展行为.小裂纹试验采用单边缺口拉伸试样,裂纹从半圆形缺口根部自然萌生.研究结果显示,TC4钛合金在恒幅载荷下,未显示出小裂纹效应.该现象与小裂纹扩展初期出现明显的裂纹偏析和分叉有关.小裂纹起始寿命较长,裂纹起始寿命约占疲劳寿命的20%~55%.7475-T7351铝合金在低应力比(R≤0)下的低应力强度因子范围内,存在经典的小裂纹效应,小裂纹起始于孔壁表面的第二相质点团或空洞处,夹杂质点团较之单个杂质点对裂纹的萌生更有害,裂纹起始寿命约占疲劳寿命的15%~29%.
参考文献
| [1] | RITCHIE R O;LANKFORD J.Small fatigue cracks[M].Warrendale,PA:The Metallurgical Society,1986 |
| [2] | MILLER K J;DE LOS RIOS E R.The behavior of short fatigue cracks[M].London:MEPL,1986 |
| [3] | NEWMAN J C JR .Fracture mechanics parameter for small fatigue cracks[J].ASTM STP,1992,1149:10-33. |
| [4] | NEWMAN J C JR;WU X R et al.Small crack effects in high-strength aluminum alloys-a NASA/CAE cooperative program[R].NASA Reference Publication,1994. |
| [5] | HB 7705-2001.金属材料疲劳小裂纹扩展速率试验方法[S]. |
| [6] | LARSEN J M;ALLISON J E .Small-crack test methods[J].ASTM STP,1992,1149 |
| [7] | Standard test method for measurement of fatigue crack growth rates[R].ASTM E647 - 99,1999. |
| [8] | ELBER W .The significance of crack closure,Damage tolerance in aircraft structures[R].Philadelphia:ASTM STP486,1971. |
| [9] | NEWMAN J C JR .A crack-closure model for predicting fatigue crack growth under aircraft spectrum loading[J].ASTM STP,1986,748:427-452. |
| [10] | NEWMAN J C JR .A crack-opening stress equation for fatigue crack growth[J].Journal of Fracture,1984,24:131-135. |
| [11] | BLANKENSHIP C P;STARKE E A .The fatigue crack growth behavior of the Al-Cu-Li alloy weldalite 049[J].Fatigue & Fracture of Engineering Material & Structure,1991,14:103-14. |
| [12] | DEMULSANT X;MENDES J .Microstructure effects on small fatigue crack initiation and growth in Ti6A14V alloys[J].Fatigue & Fracture of Engineering Material & Structure,1995,18(12):1483-1497. |
| [13] | BROWN C W;HICKS M A .A study of short fatigue crack growth Behavior Titanium alloy IMI685[J].Fatigue of Engrg Mater and Struct,1983,6(01):67-76. |
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