摘要
应用弹塑性断裂力学和△J参数,研究了16Mng钢短裂纹的纯机械疲劳和氢蚀疲劳特性。并用da/dN=C(△J)^n计算了裂纹的扩展速度和门槛值。用金相法考察了裂纹扩展途径。结果表明,氢的渗入降低了裂纹扩展的门槛值,加速了裂纹的扩展速度。
The characteristics of mechanical fatigue and corrosion fatigue of short-crack in 16Mng steel have been investigated employing elastic-plastic fracture mechanics. The crack propagation rate and threshold val-ue are calculated using da/dN = C(△J)n. The results showed that:in air: (da/dN) 1 =5. 48×1027(△J)12m/c/gd; (da/dN)1, = 1. 06× 10-5(△J)0.67m/c;△Jth=716×10-6mN/m hydrogen charged: (da/dN)= 4.13×1028(△J)11.17m/c; (da/dN)1 =4×10-6(△J)0.20);△Jth=394×10-6mN/m and the crack was transgranular. The hydrogen increased the fracture Sensitivity of 16Mng steel.
出处
《腐蚀与防护》
CAS
1997年第3期29-31,共3页
Corrosion & Protection
关键词
钢
裂纹
氢腐蚀
疲劳
断裂力学
Short-crack Mechanical fatigue Corrosion fatigue da/dN-AJ relation Threshold value
