Use of Computational and Experimental Techniques to Predict Susceptibility to Weld Cracking

Author:

Hope A. T.,Lippold J. C.

Publisher

Springer International Publishing

Reference33 articles.

1. Hickling, J., Materials Reliability Program Crack Growth Rates for Evaluating Primary Water Stress Corrosion Cracking (PWSCC) of Alloy 82, 182, and 132 Welds, 2004, EPRI: Palo Alto, California.

2. Jacko, R.J., R.E. Gold, and A. Kroes, Accelerated Corrosion Testing of Alloy 52 M and Alloy 182 Weldments, in 11th Int. Conf. Environmental Degradation of Materials in Nuclear Systems2003.

3. Smith, R., Experiences with hot cracking in Alloy 52 M overlays, in 8th International Conference on Welding and Repair Technology for Power Plants2008: Sanibel Island, FL.

4. Matsuda, F., et al., Weldability of Fe-36 % Ni alloy report II: Effect of chemical composition on reheated hot cracking in weld metal. Trans. JWRI, 1984. 13(2): p. 69–75.

5. Nishimoto, K., K. Saida, and H. Okauchi, Microcracking in multipass weld metal of alloy 690 Part 1–Microcracking susceptibility in reheated weld metal. Science and Technology of Welding & Joining, 2006. 11(4): p. 455-461.

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