Fatigue damage in two step loading of 316L steel I. Evolution of persistent slip bands

Fatigue and Fracture of Engineering Materials and Structures

Volumn 19, Issue 2, 1996, Pages 147-155

  Polak J ^a,b   Vasek A ^a   Obrtlik K ^a  

^a INSTITUTE OF MATHEMATICS   (Czech Republic)

^b CNRS   (France)

Author keywords

316L stainless steel, Cyclic slip localization; Fatigue damage; Persistent slip bands; Surface evolution; Two step loading

Indexed keywords

FATIGUE TESTING; LOADS (FORCES); SCANNING ELECTRON MICROSCOPY; STAINLESS STEEL; STRAIN;

CYCLIC SLIP LOCALIZATION; FATIGUE DAMAGE; FATIGUE DEVELOPMENT; PERSISTENT SLIP BANDS; STAINLESS STEEL 316L; SURFACE EVOLUTION; TWO STEP LOADING;

FATIGUE OF MATERIALS;

EID: 0030084469     PISSN: 8756758X     EISSN: None     Source Type: Journal    
DOI: 10.1111/j.1460-2695.1996.tb00954.x     Document Type: Article

References (13)

1. H. Mughrabi, R. Wang, K. Differt and U. Essmann (1983) Fatigue crack initiation by cyclic slip irreversibilities in high cycle fatigue. In: Fatigue Mechanisms: Advances in Quantitative Measurements of Physical Damage (Edited by J. Lankford, D. L. Davidson, W. L. Morris and R. P. Wei) ASTM STP 811. Am. Soc. Test. Mater. Philadelphia, PA. pp. 5-45.
2. Z. S. Basinski and S. J. Basinski (1992) Fundamental aspects of low amplitude cyclic deformation in face-centred cubic crystals. Progress Mater. Sci. 36, 89-148.
3. K. J. Miller (1991) Metal fatigue - past, current and future. Proc. Inst. Mech. Engng 205, 291-304.
4. J. Polák and P. Liškutín (1990) Nucleation and short crack growth in fatigued polycrystalline copper. Fatigue Fract. Engng Mater. Struct. 13, 119-133.
5. J. Polák (1991) Cyclic Plasticity and Low Cycle Fatigue of Metals. Elsevier-Academia, Amsterdam-Prague (The Netherlands-Czech Republic).
6. S. Suresh (1991) Fatigue of Materials. Cambridge University Press, Cambridge.
7. J. Polák, K. Obrtlík and M. Hájek (1994) Cyclic plasticity in type 316L austenitic stainless steel. Fatigue Fract. Engng Mater. Struct. 17, 773-782.
8. K. Obrtlík, T. Kruml and J. Polák (1994) Dislocation structures of 316L stainless steels cycled in a wide plastic strain range. Mater. Sci. Engng A187, 1-9.
9. K. Obrtlík, J. Polák and M. Hájek (1995) Short crack growth in 316L stainless steel. To be published.
10. A. Vašek, J. Polák and K. Obrtlík (1996) Fatigue damage in two-step loading of 316L steel: II. Short crack growth. Fatigue Fract. Engng Mater. Struct. 19, 157-163.
11. R. E. Peterson (1974) Stress Concentration Factors. John Wiley, New York.
12. A. T. Winter (1974) Two phase model of fatigued copper crystal. Phil. Mag. 30, 719-723.
13. J. Polák, K. Obrtlík, M. Hájek and A. Vašek (1992) Cyclic stress-strain response of polycrystalline copper in a wide range of plastic strain amplitudes. Mater. Sci. Engng A151, 19-27.