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coln Electric Co. are thanked for providing the Pipeliner®111M welding consumable used in the implant test. References 1. Montemarano, T. W., Sack, B. P., Gudas, J. P., Vassilaros, M. G., and Vanderveldt, H. H. 1986. High strength low alloy steels in naval construction. Journal of Ship Production 2(3): 145–162. 2. Czyryca, E. J., Link, R. E., Wong, R. J., Aylor, D. A., Montemarano, T. W., and Gudas, J. P. 1990. Development and certification of HSLA-100 steel for naval ship construction. Naval Engineers Journal 102(3): 63–82. 3. DeLoach, J. J., Null, C., Flore, S., and Konkol, P. 1999. The right welding wire could help the U.S. Navy save millions. Welding Journal 78(6): 55–58. 4. Devletian, J. H., and Fichtelberg, N. D. 2001. Controlling hydrogen cracking in shipbuilding. Welding Journal 80(11): 46-s to 52-s. 5. Mayudeeswaran, G., Balasubramanian, V., and Reddy, G. M. 2008. Hydrogen induced cold cracking studies on armour grade high strength, quenched and tempered steel weldments. International Journal of Hydrogen Energy 33(7): 1897–1908. 6. Savage, W. F., Nippes, E. F., and Homma, H. 1976. Hydrogen induced cracking in HY-80 steel weldments. Welding Journal 55(11): 368-s to 376-s. 7. Adonyi, Y. 2006. Heat-affected zone characterization by physical simulations. Welding Journal 85(10): 42–47. 8. Shome, M., and Mohanty, O. N. 2006. Continuous cooling transformation diagrams applicable to the heat-affected zone of HSLA- 80 and HSLA-100 steels. Metallurgical and Materials Transactions A 37A: 2159–2169. 9. Nawrocki, J. G., DuPont, J. N., Robino, C. V., and Marder, A. R. 2001. The postweld heat treatment response of simulated coarsegrained heat-affected zones in a new ferritic steel. Metallurgical and Materials Transactions A 32A: 2585–2594. 10. Yue, X., Lippold, J. C., Alexandrov, B. T., and Babu, S. S. 2012. Continuous cooling transformation behavior in the CGHAZ of naval steels. Welding Journal 91(3): 67-s to 75-s. 11. Granjon, H. 1969. The implants method for studying the weldability of high strength steels. Metal Construction and British Welding Journal 1(11): 509–515. 12. Morito, S., Huang, X., Furuhara, T., Maki, T., and Hansen, N. 2006. The morphology and crystallography of lath martensite in alloy steels. Acta Materialia 54: 5323–5331. 13. Spanos, G., Fonda, R. W., Vandermeer, R. A., and Matuszeski, A. 1995. Microstructural changes in HSLA-100 steel thermally cycled to simulate the heat-affected zone during welding. Metallurgical and Materials Transactions A 26A: 3277–3293. 14. Moon, D. W., Fonda, R. W., and Spanos, G. 2000. Microhardness variations in HSLA-100 welds fabricated with new ultralow-carbon weld consumables. Welding Journal 79(10): 278-s to 285-s. 15. Bhadeshia, H. K. D. H. 2001. Bainite in steels: Transformations, Microstructure and Properties. pp: 63–88, London, UK, IOM Communications Ltd. 16. Sawhill, J. M. Jr., Dix, A. W., and Savage, W. F. 1974. Modified implant test for studying delayed cracking. Welding Journal 53(12): 554-s to 560-s. 17. Dickinson, D. W., and Ries, G. D. 1979. Implant testing of medium to high strength steel — A model for predicting delayed cracking susceptibility. Welding Journal 59(7): 205-s to 211-s. 18. McMahon, C. J. Jr. 2001. Hydrogeninduced intergranular fracture of steels. Engineering Fracture Mechanics 68: 773–788. 19. Beachem, C. D. 1972. A new model for hydrogen assisted cracking (Hydrogen “embrittlement”). Metallurgical Transactions 3: 437–451. 20. Gedeon, S. A., and Eagar, T. W. 1990. Assessing hydrogen-assisted cracking fracture modes in high-strength steel weldments. Welding Journal 69(6): 213-s to 220-s. JANUARY 2013, VOL. 92 28-s WELDING RESEARCH Authors: Submit Research Papers Online Peer review of research papers is now managed through an online system using Editorial Manager software. Papers can be submitted into the system directly from the Welding Journal page on the AWS Web site (www.aws.org) by clicking on “submit papers.” You can also access the new site directly at www.editorialmanager.com/wj/. Follow the instructions to register or log in. This online system streamlines the review process, and makes it easier to submit papers and track their progress. By publishing in the Welding Journal, more than 69,000 members will receive the results of your research. Additionally, your full paper is posted on the American Welding Society Web site for FREE access around the globe. There are no page charges, and articles are published in full color. By far, the most people, at the least cost, will recognize your research when you publish in the world-respected Welding Journal. 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Welding Journal | January 2013
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