Structural Steel ASTM A709—Behavior at Uniaxial Tests Conducted at Lowered and Elevated Temperatures, Short-Time Creep Response, and Fracture Toughness Calculation
Publication: Journal of Engineering Mechanics
Volume 136, Issue 9
Abstract
This paper presents the temperature dependence of the mechanical properties of structural high-strength low-alloy (HSLA) ASTM A709 Gr50 steel (En10025: S355 JO; DIN: ST 52-3U). Engineering stress-strain diagrams at lowered and elevated temperatures are presented. Creep responses for selected constant stresses at selected temperatures are also presented and are fit with a rheological model. Additionally, a relation between impact toughness and fracture toughness is proposed and is validated using results from notch impact tests on a Charpy pendulum impact machine.
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Acknowledgments
The research presented in this paper was realized within the Scientific Project No. UNSPECIFIED069-0691736-1737 “Numerical analysis of structural response for specific service conditions” financially supported by the Ministry of Science, Education, and Sport of the Republic of Croatia. Also, the writers would like to thank the staff of the Material Testing Laboratory of the Department of Materials at the Faculty of Engineering in Rijeka, Croatia for their participation in determination of testing material composition.
References
Amanie, J., Oguocha, I. N. A., and Yannacopoulos, S. (2007). “Effect of submerged arc welding parameters on the microstructure of SA 516 and a709 steels.” Proc., 19th Canadian Materials Science Conf., Met Soc, Montreal.
ASTM. (2005). Annual book of ASTM standards: Metal test methods and analytical procedures, Vol. 03.01, Baltimore.
Boresi, A. P., and Schmidt, R. J. (2003). Advanced mechanics of materials, Wiley, New York.
Brnic, J., Niu, J., Canadija, M., Turkalj, G., and Lanc, D. (2009a). “Behavior of AISI 316L steel subjected to uniaxial state of stress at elevated temperatures.” J. Mater. Sci. Technol., 25(2), 175–180.
Brnic, J., Turkalj, G., Canadija, M., and Lanc, D. (2009b). “Creep behavior of high-strength low-alloy steel at elevated temperatures.” Mater. Sci. Eng., A, 499, 23–27.
Chen, H., Grondin, G. Y., and Driver, R. G. (2007). “Characterization of fatigue properties of ASTM A709 high performance steel.” J. Constr. Steel Res., 63, 838–848.
Collins, J. A. (1993). Failure of materials in mechanical design, Wiley, New York.
Courtney, T. H. (1997). “Fundamental structure-property relationships in engineering materials.” ASM handbook, Vol. 20, ASM International, Materials Park, Ohio, 336–356.
De, A., Manohar, M., and Heitman, W. (2007). “Processing alternatives for optimized strength and toughness balance of ASTM A709 HPS 70W composition.” Proc., Materials Science and Technology Conf., 4th Int. Symp. on Railroads Tank Car, The Mineral, Metals, and Materials Society, Warrendale.
Dexter, R. J., Wright, W. J., and Fisher, J. W. (2004). “Fatigue and fracture of steel girders.” J. Bridge Eng., 9, 278–286.
Dusicka, P., Itani, A. M., and Buckle, I. G. (2007). “Cyclic response of plate steels under large inelastic strains.” J. Constr. Steel Res., 63(2), 156–164.
Earls, C. J., and Shah, B. J. (2002). “High performance steel bridge girder compactness.” J. Constr. Steel Res., 58, 859–880.
Findley, W. N., Lai, J. S., and Onaran, K. (1989). Creep and relaxation of nonlinear viscoelastic materials, Dover, New York.
ISO. (2000). “Metallic materials-tensile testing at low temperature.” 15579:2000(E), Geneva.
Raghavan, V. (2004). Materials science and engineering, Prentice-Hall of India, New Delhi, India.
Roberts, R., and Newton, C. (1981). “Interpretive report on small-scale test correlations with data.” Weld. Res. Counc. Bull., 265, 1–16.
Sims, R. D. (2007). “Tank car steel to improve performance.” Proc., Materials Science and Technology Conf, 4th Int. Symp. on Railroads Tank Car, The Mineral, Metals, and Materials Society, Warrendale.
Timmins, P. F. (1997). “Failure control in process operations.” ASM handbook, Vol. 19, ASM International, Materials Park, Ohio, 468.
Yang, Y., Oguocha, I. N. A., and Yannacopulos, S. (2007). “The effects of SAW parameters on the welding efficiency of ASTM A709 Gr 50 steel.” Proc., 19th Canadian Materials Science Conf., Met Soc, Montreal.
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© 2010 ASCE.
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Received: Apr 15, 2009
Accepted: Feb 17, 2010
Published online: Feb 19, 2010
Published in print: Sep 2010
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