Author Index Volume 9 (2015)
Achiwa, M., see Kobayashi, D. (1) 95–109
Ainsworth, R.A. and S.E. Booth, The interaction of ductile tearing and creep crack growth (1) 43– 59
Akhtar, N., see Hasan, S. (3) 211–232
Bar, H.N., see Mukhopadhyay, C.K. (4) 251–264
Booth, S.E., see Ainsworth, R.A. (1) 43– 59
Devaraj, R., see Mukhopadhyay, C.K. (4) 251–264
Han, J.-J., H.-S. Lee, Y.-J. Kim, N.-H. Kim, W.-G. Kim, H.-Y. Lee and D.W. Jerng, Prediction of creep crack initiation and growth for P91 at 600°C using MOD-NSW model (1) 125–136
Haneef, T.K., see Mukhopadhyay, C.K. (4) 251–264
Hasan, S. and N. Akhtar, Mathematical model for three equal collinear straight cracks: A modified Dugdale approach (3) 211–232
Holdsworth, S.R. and E. Hosseini, Review of current status of the LICON methodology (1) 61– 70
Hongo, H., see Tabuchi, M. (1) 31– 41
Hosseini, E., see Holdsworth, S.R. (1) 61– 70
Ito, M., see Ozeki, G. (1) 111–123
Jayakumar, T., see Mukhopadhyay, C.K. (4) 251–264
Jerng, D.W., see Han, J.-J. (1) 125–136
Kalyanasundaram, V., see Saxena, A. (1) 3– 14
Kawai, G., see Ochi, H. (2) 137–148
Kim, N.-H., see Han, J.-J. (1) 125–136
Kim, W.-G., see Han, J.-J. (1) 125–136
Kim, Y.-J., see Han, J.-J. (1) 125–136
Kobayashi, D., M. Miyabe, M. Achiwa and R. Sugiura, Analysis of damage behavior based on EBSD method and the law of fracture life under creep–fatigue conditions for the polycrystalline nickel-base superalloy (1) 95–109
Kobayashi, K., see Tabuchi, M. (1) 31– 41
Lassila, L.V.J., see Ohtonen, J. (3) 187–196
Lee, H.-S., see Han, J.-J. (1) 125–136
Lee, H.-Y., see Han, J.-J. (1) 125–136
Li, J., see Zhang, M. (2) 161–174
Li, J., see Zhang, M. (3) 197–209
Liu, P.Q., see Wang, Z.W. (2) 175–185
Liu, Y., see Zhang, M. (2) 161–174
Liu, Y., see Zhang, M. (3) 197–209
Metya, A.K., see Mukhopadhyay, C.K. (4) 251–264
Miyabe, M., see Kobayashi, D. (1) 95–109
Mukhopadhyay, C.K., T.K. Haneef, T. Jayakumar, R. Devaraj, H.N. Bar, A.K. Metya, G.V.S. Murthy and N. Parida, Acoustic emission monitoring during hydrotesting of a mounded LPG storage vessel of petrochemical industry (4) 251–264
Murthy, G.V.S., see Mukhopadhyay, C.K. (4) 251–264
Narasimhachary, S.B., see Saxena, A. (1) 3– 14
Nikbin, K., Creep/fatigue crack growth testing, modelling and component life assessment of welds (1) 15– 29
Nikbin, K.M., see Yatomi, M. (1) 87– 94
Nunokawa, H., see Yokobori Jr., A.T. (4) 275–289
Ochi, H., G. Kawai, Y. Yamamoto and K. Ogawa, Statistical investigation on strength of friction-welded joints of titanium to copper (2) 137–148
Ogawa, K., see Ochi, H. (2) 137–148
Ohmi, T., see Yokobori Jr., A.T. (4) 275–289
Ohtonen, J., L.V.J. Lassila, E. Säilynoja, J. Varrela and P.K. Vallittu, Flexural behavior of glass fiber reinforced composite wires with two monomer compositions compared to steel wire used as an orthodontic retainer (3) 187–196
Ozeki, G., A.T. Yokobori, Jr., R. Sugiura and M. Ito, Law of fracture life under creep–fatigue interactive conditions for Ni-base directionally solidified superalloy based on non-equilibrium science (the effect of stress holding time) (1) 111–123
Parida, N., see Mukhopadhyay, C.K. (4) 251–264
Parker, J., EPRI creep–fatigue achievements in support of safe and reliable flexible operation of power plant components (1) 71– 86
Ranji, A.R., Mixed-mode fracture criteria investigation in a rock (4) 265–274
Rizov, V., Non-linear analysis of double cantilever beam (2) 149–160
Rizov, V., Non-linear study of mode II fracture in four-point bending multilayered beams (4) 233–249
Säilynoja, E., see Ohtonen, J. (3) 187–196
Saxena, A., S.B. Narasimhachary and V. Kalyanasundaram, Prognostics of high temperature component reliability (1) 3– 14
Sugiura, R., see Kobayashi, D. (1) 95–109
Sugiura, R., see Ozeki, G. (1) 111–123
Sugiura, R., see Tabuchi, M. (1) 31– 41
Tabuchi, M., H. Hongo, R. Sugiura, A.T. Yokobori Jr., M. Yatomi and K. Kobayashi, Evaluation of damage and fracture of high Cr steel welds at elevated temperatures (1) 31– 41
Takagi, S., see Yokobori Jr., A.T. (4) 275–289
Takeda, S., see Yokobori Jr., A.T. (4) 275–289
Vallittu, P.K., see Ohtonen, J. (3) 187–196
Varrela, J., see Ohtonen, J. (3) 187–196
Wang, P., see Zhang, M. (2) 161–174
Wang, P., see Zhang, M. (3) 197–209
Wang, W., see Zhang, M. (2) 161–174
Wang, W., see Zhang, M. (3) 197–209
Wang, Z.W., L.Z. Xia, H.X. You, P.Q. Liu and G.J. Zhang, Progressive damage analysis of full-wrapped composite gas cylinder under overload condition and prediction of its bursting pressure (2) 175–185
Xia, L.Z., see Wang, Z.W. (2) 175–185
Yamamoto, Y., see Ochi, H. (2) 137–148
Yatomi, M. and K.M. Nikbin, Numerical crack growth predictions in parent and weld components using a damage based approach (1) 87– 94
Yatomi, M., see Tabuchi, M. (1) 31– 41
Yokobori Jr., A.T., H. Nunokawa, T. Ohmi, S. Takagi and S. Takeda, The characteristics of load frequency of corrosion fatigue crack growth rate for Ti–6Al–4V alloys (4) 275–289
Yokobori Jr., A.T., see Tabuchi, M. (1) 31– 41
Yokobori, Jr., A.T., see Ozeki, G. (1) 111–123
You, H.X., see Wang, Z.W. (2) 175–185
Zhang, G.J., see Wang, Z.W. (2) 175–185
Zhang, M., W. Wang, P. Wang, Y. Liu and J. Li, Fatigue behavior and mechanism of FV520B in very high cycle regime (2) 161–174
Zhang, M., W. Wang, P. Wang, Y. Liu and J. Li, The prediction for fatigue strength in very high cycle regime of high strength steel (3) 197–209
