最近5年間(1997年以降)の論文・図書等
- K. Maruyama, G. Suzuki, Hee Y. Kim, M. Suzuki,
H. Sato,“Saturation of yield stress and
embrittlement in fine lamellar TiAl alloy",
Materials Science and Engineering A, (2001),
(印刷中)
- Hiroyuki Sato,“Creep strength of some simple
magnesium alloys around 0.5Tm", Journal
Materials Processing Technology, (2001),
(印刷中)
- H. Sato, K. Sawada, K. Maruyama and H. Oikawa,“Improvement
of Creep Rupture Life by High Temperature
Pre-Creep in Magnesium-Aluminum Binary
Solid
Solutions", Mater Sci. Eng. A, (2001),
(印刷中)
- K. Maruyama, N. Yamada and H. Sato,“Effects
of Lamellar Spacing on Mechanical Properties
of Fully Lamellar Ti-39.4mol%Al Alloy",
Mater Sci. Eng. A, (2001), (印刷中)
- M. Suzuki, H. Sato, Kouichi Maruyama and
H. Oikawa,“Creep Deformation Behavior
and
Dislocation Substructure of Mg-Y Binary
Alloy",
Mater Sci. Eng. A, (2001), (印刷中)
- Hiroyuki Sato, Kota Sawada, Kouichi Maruyama
and Hiroshi Oikawa,“Detailed examinations
of creep live improvement by high-temperature
pre-creep in binary magnesium-aluminum
alloys
at around 0.5-0.6Tm", Proceedings
of
the 9th International Conference on Creep
and Fracture of Engineering Materials &
Structures, Ed by J.D. Paker, Gomer Press
(UK), (2001), pp.157-161
- M. Suzuki, T. Kimura, H. Sato, K. Maruyama
and H. Oikawa, “Creep Behavior and Deformation
Substructure of Mg-Y Alloys containing
Precipitates",
Proceedings of the 9th International Conference
on Creep and Fracture of Engineering Materials
& Structures, Ed by J.D. Paker, Gomer
Press (UK), (2001), pp.147-156
- 「マグネシウム技術便覧」, 日本マグネシウム協会編著,カロス出版,
(2000),(分担)
- 佐藤裕之,「固溶強化・安定な高温強化法としての可能性」,まてりあ,第39巻,
(2000), pp.426-429
- M. Suzuki, R. Inoue, M. Sugihara, H. Sato,
J. Koike, K. Maruyama and H. Oikawa,“Effects
of Yttrium on Creep Behavior and Deformation
Substructure of Magnesium", Materials
Science Forum,第350-351巻, (2000), pp.151-156
- Hiroyuki Sato, Mayumi Suzuki, Kouichi Maruyama
and Hiroshi Oikawa,“Creep Strength of
Binary
Magnesium Alloys up to 0.6Tm", Creep
and Fracture of Engineering Materials &
Structures, Key Engineering Materials,
第171-174巻,
(2000), pp.601-608.
- 佐藤裕之,「マグネシウム合金のクリープ特性:21世紀の超軽量材料:マグネシウム合金」,まてりあ,第38巻,
(1999), pp.298-300.
- 佐藤裕之,山田周輝,丸山公一, 「完全層状組織TiAl合金の機械的性質に対する層間隔の影響」,日本学術振興会,耐熱材料第123委員会研究報告,第43巻,No.3,
(1999), pp.273-281.
- Hiroyuki SATO,“Creep Behavior of FCC and
HCP Solid Solutions", Proc. of The
1st
Korea-Japan Structural Dynamic Symposium,
Research and Development Center for Automobile
Parts and Materials, Korea, (1999), pp.139-152
- M. Suzuki, H. Sato, K. Maruyama and Hiroshi
Oikawa,“Creep Behavior and Deformation
Microstructure
of Mg-Y alloys at 550K”, Mater. Sci. Eng.,
第A252巻, (1998), pp.248-255.
- H. Sato, G. Luetjering and A. Gysler,“Fatigue
crack propagation behavior of the Al-Alloy
6013 under Variable Amplitude Loading in
an Aggressive Environment,Aluminum Alloys",
Their Physical and Mechanical Properties,
ed. by T. Sato et. al., The Japan Institute
of Light Metals, (1998), pp.1421-1426.
- Hiroyuki Sato, K. Maruyama and Hiroshi Oikawa,“Creep
Strength around 600K of two Terminal Phases
in Al-Mg Binary System", Aluminum
Alloys,
Their Physical and Mechanical Properties,
ed. by T. Sato et. al., The Japan Institute
of Light Metals, (1998), pp.1355-1360
- M. Suzuki, H. Sato and H. Oikawa,“Effect
of Yttrium Concentration on Creep of Mg-Y
Alloys at 550K", Proc. 7th Intern.
Conf.
on Creep and Fracture of Engineering Materials
and Structures, Metals and Materials Society,
(1997), pp.59-67.
- H. Sato, K. Maruyama and H. Oikawa,“Effects
of the third element on creep behavior
of
Al-Mg and αFe-Be solid solution alloys"
,Material Science and Engineering, 第A234-
236巻, (1997), pp.1067-1070
- Yuji NAGAE, Toshihiko FUKUDA, Makoto OHTSUKA,
Hiroyuki SATO and Hiroshi OIKAWA,“Creep
Behavior and Substructures of α2 Ti-34mol%Al Intermetallics", Intermetallics 第5巻,
(1997), pp.321-328
- K. Maruyama, I.Nonaka, K. Sawada, H. Sato,
J. Koike and H. Umaki,“IMPROVEMENT OF
OMEGA
METHOD FOR CREEP LIFE PREDICTION",
ISIJ
International 第37巻 第4号, (1997), pp.419-423
- K. Maruyama, K. Sawada, J. Koike, H. Sato
and K. Yagi,“EXAMINATION OF DEFORMATION
MECHANISM MAPS IN 2.25Cr-1Mo STEEL BY CREEP
TESTS AT STRAIN RATES OF 10-11s-1 to 10-6s-1", Materials Science and Engineering
A, 第224巻, (1997), pp.166-172
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