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TECHNICAL PAPERS

Experimental Data, Numerical Fit and Fatigue Life Calculations Relating to the Bauschinger Effect in High Strength Armament Steels

[+] Author and Article Information
Edward Troiano

US Army Armament Research, Development & Engineering Center, Benet Laboratories, Technology Division, Watervliet, NY 12189 USAe-mail: etroiano@pica.army.mil

Anthony P. Parker

Engineering Systems Department, Royal Military College of Science, Cranfield University, Swindon, SN6 8LA, UKe-mail: tony_parker@tesco.net

John Underwood, Charles Mossey

US Army Armament Research, Development & Engineering Center, Benet Laboratories, Technology Division, Watervliet, NY 12189 USA

J. Pressure Vessel Technol 125(3), 330-334 (Aug 01, 2003) (5 pages) doi:10.1115/1.1593072 History: Received March 14, 2003; Revised April 23, 2003; Online August 01, 2003
Copyright © 2003 by ASME
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References

Lemaitre, J., and Chaboche, J. L., 1990, Mechanics of Solid Materials, Cambridge University Press, Cambridge, England.
Bauschinger,  J., 1881, “Ueber die Veranderung der Elasticitatagrenze und dea Elasticitatamoduls verschiadener Metalle,” Zivilingenieur, 27 , pp. 289–348.
Parker,  A. P., 2001, “Autofrettage of Open-End Tubes—Pressures, Stresses, Strains and Code Comparisons,” ASME J. Pressure Vessel Technol., 123(3), pp. 271–281.
ASME Pressure Vessel and Piping Design Code, 1997, “Design Using Autofrettage,” Division 3, Section 8, Article KD-5, pp. 71–73.
Mossey, C., Troiano, E., and Pfindl, F., 2002 “Bauschinger Test Fixture,” Benet Labs Internal Technical Memorandum.
Puskar, A., 1993, “A Correlation Among Elastic Modulus Defect, Plastic Strain and Fatigue Life of Metals,” Materials Science Forum, Vol. 119–121, pp. 455–460.
Milligan,  R. V., Koo,  W. H., and Davidson,  T. E., 1966, “The Bauschinger Effect in a High Strength Steel,” Trans. ASME, D, pp. 480–488.
Hill, R., 1967, The Mathematical Theory of Plasticity, Oxford University Press, Oxford, UK (ISBN: 0198503679).
Parker, A. P., Troiano, E., Underwood, J. H., and Mossey, C., 2001, Characterization of Steels Using a Revised Kinematic Hardening Model Incorporating the Bauschinger Effect (in preparation).
Parker, A. P., and Underwood, J. H., 1998, “Influence of the Bauschinger Effect on Residual Stress and Fatigue Lifetimes in Autofrettaged Thick Walled Cylinders,” Fatigue and Fracture Mechanics, 29th Vol. ASTM STP 1321, T. L. Panontin and S. D. Sheppard, eds., ASTM, PA.

Figures

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Typical uniaxial stress-strain behavior showing strain hardening, reduced elastic modulus in compression and Bauschinger effect during initial cycle
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Engineering stress/strain plots of A723-1130 MPa
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Unloading/reloading experiment on A723-1130
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Comparison of Milligan β to new BSR
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Modulus recovery experiment on PH13-8ST (1355)
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Life measurements and life prediction of candidate steels (constant value of Paris Law coefficients assumed)
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Life measurements and life prediction of candidate steels with normalized Paris law coefficient and exponent (material specific values of Paris Law coefficients assumed)

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