Ładowanie...

Łukasiewicz Research Network – Institute of Aviation

 

prof. nadzw. dr hab. inż. Grzegorz Socha

Scientific interests:

Strength of structural materials, destruction, ductility.

Most important publications:

  1. Dietrich L., Socha G., Kowalewski Z.L. (2014). Anti-buckling Fixture for Large Deformation Tension-Compression Cyclic Loading of Thin Metal Sheets. Strain, DOI: 10.1111/str.12078.
  2. Socha G., Dietrich L. (2014). A fatigue damage indicator parameter for P91chromium-molybdenum alloy steel and fatigue pre-damaged P54T carbon steel. Fatigue and Fracture of Engineering Materials and Structures, 37, 195–205.
  3. Socha G., Dietrich L. (2012). Accumulation of damage in A336 GR5 structural steel subject to complex stress loading. Strain, 48, 279–285.
  4. Socha G. (2004). Prediction of the Fatigue Life on the Basis of Damage Progress Rate Curves. International Journal Fatigue, 26(4), 339–347.
  5. Socha G. (2003). Experimental investigations of fatigue cracks nucleation, growth and coalescence in structural steel. International Journal of Fatigue, 25(2), 139–147.

 

prof. nadzw. dr hab. inż. Grzegorz Socha

Zainteresowania naukowe:

Wytrzymałość materiałów konstrukcyjnych, zniszczenie, plastyczność.

Najważniejsze publikacje:

  1. Dietrich L., Socha G., Kowalewski Z.L. (2014). Anti-buckling Fixture for Large Deformation Tension-Compression Cyclic Loading of Thin Metal Sheets. Strain, DOI: 10.1111/str.12078.
  2. Socha G., Dietrich L. (2014). A fatigue damage indicator parameter for P91chromium-molybdenum alloy steel and fatigue pre-damaged P54T carbon steel. Fatigue and Fracture of Engineering  Materials and Structures, 37, 195–205.
  3. Socha G., Dietrich L. (2012). Accumulation of damage in A336 GR5 structural steel subject to complex stress loading. Strain, 48,  279–285.
  4. Socha G. (2004). Prediction of the Fatigue Life on the Basis of Damage Progress Rate Curves. International Journal Fatigue, 26(4), 339–347.
  5. Socha G. (2003). Experimental investigations of fatigue cracks nucleation, growth and coalescence in structural steel. International Journal of Fatigue, 25(2), 139–147.
Skip to content