Affiliation:
1. China Iron and Steel Research Institute Group
Abstract
690 MPa grade HSLA steel has wide application in engineering, such as mechanical equipment and oceanographic platform. Qualified joint is crucial for structure safety. Many factors, such as preheating temperature and interpass temperature, welding heat input and plate thickness, may influence the welding thermal cycle so that microstructure and mechanical properties of weld metal are changed. In this paper, the effect of interpass temperature on microstructure and mechanical properties of weld metal of 690 MPa grade steel are studied. Gas metal arc welding method was used to weld the joint. Four interpass temperatures, 80°C, 120°C, 160°C and 200°C are adopted during welding. Optical microscope, scanning electron microscope, transmission electron microscope and electron back-scattered diffraction (EBSD) were used to analyze the microstructure of weld metal. Tensile test and impact test were used to measure its mechanical properties. Research results show that the weld metal are composed of lath bainite and granular bainite. M-A constituents are found on grain boundary and inside grains. The shape and size of bainite structure and M-A constituent are detailed. The distribution and quantity of residual austenite are also detected. The relationship between microstructure and mechanical properties is discussed. Experiment results show that when interpass temperature is 80°C the yield strength and impact toughness are higher than the other three cases.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference5 articles.
1. G. Spanos, R. W. Fonda, A. G. Fox. Microstructural, Compositional, and Microhardness Variations across a Gas-Metal Arc Weldment Made with an Ultralow-Carbon Consumable. Metall. Trans, A, 2001, Vol. 32A, Dec. 3043-3054.
2. E. Levine and D. C. Hill. A Review of the Structure and Properties of Welds in Columbium or Vanadium Containing High Strength Low Alloy Steels, WRC Bulletin 213, Feb. (1976).
3. Fukuhisa, Kenji, Hitoshi, et al. Effect of M-A Constituent on Fracture Behavior of 780 and 980 MPa Class HSLA Steels Subjected to Weld HAZ Thermal Cycles. Trans. JWRI, Vol. 1994, 23 (2). 231-238.
4. Y. Zhong, F. R. Xiao, J. W. Zhang, Y. Y. Shan, W. Wang, K. Yang. In Situ TEM Study of the Effect of M/A Films at Grain Boundaries on Crack Propagation in an Ultra-fine Acicular Ferrite Pipeline Steel. Acta Mter, 2006, 54: 435-443.
5. Hailong Wang et al. Influences of Temperature-holding Thickness and Finish Rolling Temperature on Martensite/Austenite Islands in X80 Pipeline Steel. Materials for Mechanical Engineering. 2009, 33 (6), 37~39.
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