1. Ohtani, R., Kitamura, T. and Tada, N., Cracking Behaviour of Heat-resisting Steels, Alloys and a Carbon-fibre-reinforced Polymer at Elevated Temperatures, Materials Science and Engineering, A143 (1991), 213–222.

2. Ohtani, R., Kitamura, T., Tada, N. and Zhou, W., Experimental Mechanics on Initiation and Growth of Distributed Small Creep-Fatigue Cracks, Recent Advances in Experimental Mechanics, J.F. Silva Gomes et al. (eds.), Balkema, Rotterdam, (1994), pp. 1173–1179.

3. Tada, N., Ohtani, R., Kitamura, T. and Yamada, M., Inverse Analysis of Distribution of Internal Small Defects, JSME International Journal, Ser. A, 37 (1994), 450–455.

4. Ohtani, R., Kitamura, T. and Tada, N., Numerical Simulation of Initiation and Early Propagation of Creep-Fatigue Small Cracks Based on a Model of Random Fracture Resistance of Grain Boundaries, Structural Design for Elevated Temperature Environments-Creep, Ratchet, Fatigue, and Fracture, C.Becht, R. Ohtani, L.K. Severud and S.Y. Zamrik (eds.), PVP-163, ASME, (1989), pp. 123–127.

5. Kitamura, T., Tada, N. and Ohtani, R., Stochastic Simulation of Initiation and Early Growth of Small Cracks in Creep-Fatigue, Advances in Structural Reliability Methods (1993 IUTAM Symposium), P.D. Spanos and Y.-T. Wu (eds.), Springer, Berlin, (1994), pp. 301–318.