Introduction to the Degradation Theory of Low Carbon Steels

[1]  G. Lesiuk,et al.  Fatigue Properties and Fatigue Crack Growth in Puddled Steel with Consideration of Microstructural Degradation Processes after 100-years Operating Time , 2014 .

[2]  Michele Ciavarella,et al.  One, no one, and one hundred thousand crack propagation laws: A generalized Barenblatt and Botvina dimensional analysis approach to fatigue crack growth , 2008 .

[3]  Rosemarie Helmerich,et al.  Forschungsbericht 271: Alte Stähle und Stahlkonstruktionen Materialuntersuchungen, Ermüdungsversuche an originalen Brückenträgern und Messungen von 1990 bis 2003 , 2006 .

[4]  D. Dudek Pytanie o naturę zmian degradacyjnych w obiektach technicznych , 2004 .

[5]  D. Dudek Od prawdopodobieństwa do nieodwracalności procesów degradacyjnych w maszynach roboczych , 2002 .

[6]  B. C. Cooman,et al.  Kinetics of Cottrell atmosphere formation during strain aging of ultra-low carbon steels. , 2000 .

[7]  P. Ferguson Mechanical properties of nitrogen-ferrite , 1985 .

[8]  Ishizaki Tetsuro,et al.  Effect of Nitrogen and Other Alloying Elements on the Low-Temperature Brittleness of Steel. III : Nitrogen Fix and Nitrogen in Quench-Tempered Steel , 1965 .

[9]  Ishizaki Tetsuro,et al.  Effect of Nitrogen and Other Alloying Elements on the Low-Temperature Brittleness of Steel. IV : Effect of Quench-Tempering , 1965 .

[10]  Ishizaki Tetsuro,et al.  Effect of Nitrogen and Other Alloying Elements on the Low-Temperature Brittleness of Steel. II : Correlative Effect of Nitrogen and Phosphorus , 1965 .

[11]  S. K. Maksimov,et al.  Structural changes during aging of commercial iron , 1962 .

[12]  Y. Imai,et al.  Nitrogen as the Alloying Element in Steels. I : On the Effect of Nitrogen on the Temper-Brittleness in Steels , 1950 .