1. Samuel Shian*, Jiangshui Huang, Shijie Zhu, and David R. Clarke, Optimizing
the Electrical Energy Conversion Cycle of Dielectric Elastomer Generators,
Advanced Materials, (2014), DOI:10.1002/adma.201402291.
2. T. Kawaguchi, F.W. Li, S.J. Zhu, Y.M. Wang and C. Dong, Effect of Chemical
Composition on Fracture Behavior in ZrNiAl Metal Glass,Materials Science
Forum, Vol. 750 (2013) 19-22.
3. Makoto Kichise, Shijie Zhu, Arimitsu, Usuki, Makoto Kato, Temperature
influence on fatigue fracture of nylon 6 clay hybrid composite materials,
Journal of the Society of Materials Science, Japan, 60 (5) (2011) 457-463.
4. C. X. Dong, S. J. Zhu, M. Mizuno and M. Hashimoto, Modeling and prediction
of compressive creep of silane-treated TiO2/high-density polyethylene
Journal of Materials Science: Volume 45, Issue 13 (2010), Page 3506-3513.
5. Shijie Zhu, Masanori Okazaki, Arimitsu Usuki, Makoto Kato, Tensile and
Fatigue Behavior in Clay Reinforced Nylon 6 Nanocomposites, Journal
of the Society of Materials Science, Japan, 58 (12) (2009) 969-976.
6. F.H. Yuan, Z.X. Chen, Z.W. Huang, Z.G. Wang, S.J. Zhu, Oxidation behaviour
of thermal barrier coatings with HVOF and detonation sprayed NiCrAlY bondcoatings,
Corrosion Science, 50 (6) (2008)1608-1617.
7. X.F. Zhu, G.P. Zhang, J. Tan, Y. Liu, S.J. Zhu, Damage behavior of Cu-Ta
bilayered films under cyclic loading, J. Mater. Res., 22 (9) (2007) 2478-2482.
8. Z.W. Huang, Z.G. Wang, S.J. Zhu, “Thermomechanical fatigue behavior
and life prediction of a cast nickel-based superalloy”, Mater. Sci. Eng.
A, 432(1-2) (2006) 308-316.
9. Shijie Zhu, Takashi Gomyou, Yasuo Ochi, Toshio Ogasawara and Takashi
Ishikawa, “Effects of loading rate and temperature in tensile behavior
of orthogonal three-dimensional woven Tyranno fiber/Si–Ti–C–O matrix composites”,
Journal of Materials Research, 19 (10) (2004) 2964-2973.
10. J. Cadek, K. Kucharova, S.J. Zhu, “Creep in ODS copper reinforced with
tungsten short fibres - an ODS copper-matrix/tungsten-short-fibre
composite”, Z METALLKD, 95 (3) (2004) 179-184.
11. M. Hasegawa, S.J. Zhu, Y. Kagawa, A.G. Evans, “Effect of metal layer
thickness on the decohesion of high purity copper-sapphire interfaces”,
Acta Materialia, 51 (17)(2003) 5113-5121.
12. T. Tomimatsu, S.J. Zhu and Y. Kagawa, “Effect of thermal exposure on
stress distribution in TGO layer of EB-PVD TBC”, Acta Mater., 51(8)(2003)2397-2405.
13. Y. Kagawa, T. Naganuma, K. Matsumura, S.J. Zhu, “High-temperature light
reflection spectrometer for thermal energy window coating”, Am. Ceram.
Soc. Bull., 82 (11) (2003) 9301-9305.
14. K. Kucharová, S.J. Zhu, J. Cadek, “Creep in ODS copper reinforced with
alumina short fibers -DRS copper”, Mater. Sci. Eng., A355 (2003) 267-276.
15. L.M. Liang and S.J. Zhu, “Creep of metal matrix composites reinforced
by combining nano-sized dispersoids with micro-sized ceramic particulates
or whiskers (review)”, Int. J. of Materials & Product Technology, 18(1/2)(2003)
215-254.
16. T. Ogasawara, T. Ishikawa, Y. Ohsawa, Y. Ochi, and S. Zhu, Tensile
Creep Behavior and Thermal Stability of Orthogonal 3-D Woven Tyranno ZMI
Fiber /Si-Ti-C-O Matrix Composites , J. Am. Ceram. Soc., 85 (2) (2002)
393-400.
17. Y.Miyashita, K.Kanda, S.Zhu, Y.Mutoh, M.Mizuno, A.J.McEvily, “Observations
of fatigue damage process in SiC/SiC composites at room and elevated
temperatures”, Inter. J. Fatigue, 24 (2002) 241-248.
18. Y. Mutoh, S.J. Zhu, T. Hansson, S. Kurai, “Effect of microstructure
on fatigue crack growth in TiAl intermetallics at elevated temperature”,
Mater. Sci. Eng. A, A323 (1-2) (2002) 62-69.