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See:
http://www.ccn.yamanashi.ac.jp/~hshima/HShima-en.html
Associate Professor
Department of Environmental Sciences
University of Yamanashi, Kufu, Yamanashi, Japan
Education:
1997.3 B.S. Hokkaido University (awarded Yoshimachi Prize by Department of Engineering)
1999.3 M.S. Hokkaido University
2005.3 Ph.D. Hokkaido University
Experience:
1999.4 Fellowships from Japan Society for Promotion of Science (DC1)
1999.9 Research Associate in Hokkaido University (Sapporo, Japan)
2007.4 Assistant Professor in Hokkaido University (Sapporo, Japan)
2009.9 Academic Visitor in Universitat Politecnica de Catalunya (Barcelona, Spain)
2012.4 Associate Professor of University of Yamanashi (Kofu, Japan)
Editorships:
Editorial Board Member of the Journal: Coupled Systems Mechanics (issued by Techno Press, Korea)
Editorial Board Member of the Journal: Dataset Papers in Physics (Condensed Matter Section)
Editorial Board Member of the Journal: American Journal of Modern Physics
Editorial Board Member of the Journal: International Journal of Physics
Courses Taught:
Analytical and Computational Approach to Complex Systems (2012.04-present, University of Yamanashi)
Environmental Physics (2012.10-present, University of Yamanashi)
Calculus (2012.10-present, University of Yamanashi)
Linear Algrbra (2012.10-present, University of Yamanashi)
Monographs and Books Written:
H. Shima and T. Nakayama: Higher Mathematics for Physics and Engineering (Springer-Verlag, 2010)
H. Shima and M. Sato: Elastic and Plastic Deformation of Carbon Nanotubes (Pan Stanford Publishing, 2013)
H. Shima: “Geometry-property relation in corrugated nanocarbon cylinders”, in Modeling of Carbon Nanotubes, Graphene and Their Composites, edited by K. Tserpes and N. Silvestre, to be published by Springer-Verlag
H. Shima: “Condensed Matter Physics on Curved Surfaces”, in Advances in Science, March 2013, ISBN: 978-098695542-6, to be published by Science Network Publications:
A survey paper by Hiroyuki Shima:
Hiroyuki Shima, Division of Applied Physics, Faculty of Engineering, Hokkaido University, ,Japan, “Buckling of Carbon Nanotubes: A State of the Art Review”, Materials 2012, 5, 47-84; doi:10.3390/ma5010047
ABSTRACT: The nonlinear mechanical response of carbon nanotubes, referred to as their “buckling” behavior, is a major topic in the nanotube research community. Buckling means a deformation process in which a large strain beyond a threshold causes an abrupt change in the strain energy vs. deformation profile. Thus far, much effort has been devoted to analysis of the buckling of nanotubes under various loading conditions: compression, bending, torsion, and their certain combinations. Such extensive studies have been motivated by (i) the structural resilience of nanotubes against buckling and (ii) the substantial influence of buckling on their physical properties. In this contribution, I review the dramatic progress in nanotube buckling research during the past few years.
212 references cited.
Original Papers: See the website:
http://www.ccn.yamanashi.ac.jp/~hshima/HShima-en.html
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