Tamura, Y. ., Yamazaki, K. ., Maeda, K. ., & Sato, K. . (2019). The residual strength of automotive hydrogen cylinders after exposure to flames. International Journal of Hydrogen Energy, 44, 8759-8766. https://doi.org/10.1016/j.ijhydene.2018.12.055

Tamura, Y. ., & Sato, K. . (2017). The possibility of an accidental scenario for marine transportation of fuel cell vehicle Hydrogen releases from TPRD by radiant heat from lower deck. International Journal of Hydrogen Energy, 42, 7560-7564. https://doi.org/10.1016/j.ijhydene.2016.07.031

Yamazaki, K. ., & Tamura, Y. . (2017). Study of a post-fire verification method for the activation status of hydrogen cylinder pressure relief devices. International Journal of Hydrogen Energy, 42, 7716-7720. https://doi.org/10.1016/j.ijhydene.2016.07.197

Maeda, K. ., & Tamura, Y. . (2017). Characteristics of hydrogen leakage sound from a fuel-cell vehicle by hearing. International Journal of Hydrogen Energy, 42, 7331-7339. https://doi.org/10.1016/j.ijhydene.2016.06.220

Tamura, Y. ., & Sato, K. . (2015). The Possibility of an Accidental Scenario for Marine Transportation of Fuel Cell Vehicle - Hydrogen Releases From TPRD by Radiant Heat From Lower Deck.

Tamura, Y. ., Takeuchi, M. ., & Sato, K. . (2013). Effectiveness of a Blower in Reducing the Hazard of Hydrogen Leaking From a Hydrogen-Fueled Vehicle.

Watanbe, S. ., Tamura, Y. ., & Suzuki, J. . (2005). The New Facility for Hydrogen and Fuel Cell Vehicle Saftey Evaluation-Paper.

Tomioka, J. ., Kiguchi, K. ., Tamura, Y. ., & Mitsuishi, H. . (2011). Influence of Pressure and Temperature on the Fatigue Strength of Type-3 Compressed-Hydrogen Tanks.

Matsuno, Y. ., Maeda, Y. ., Otsuka, N. ., Tamura, Y. ., & Mitsuishi, H. . (2011). Attained Temperature During Gas Fueling and Defueling Cycles of Compressed Hydrogen Tanks for FCV.

Tomioka, J. ., Kiguchi, K. ., Tamura, Y. ., & Mitsuishi, H. . (2009). Influence of Temperature on the Fatigue Strength of Compressed Hydrogen Tanks for Vehicles.