You are here

Disable VAT on Taiwan

Unfortunately, as of 1 January 2020 SAGE Ltd is no longer able to support sales of electronically supplied services to Taiwan customers that are not Taiwan VAT registered. We apologise for any inconvenience. For more information or to place a print-only order, please contact uk.customerservices@sagepub.co.uk.

Strength, Fracture and Complexity

Strength, Fracture and Complexity

An International Journal
Published in Association with IOS Press

eISSN: 18759262 | ISSN: 15672069
Fracture has been studied for many years, for instance more than 160 as far as fatigue is concerned. Even though nanostudies and computational science are rapidly developing, it and its related problems remain unsolved, such as using equations expressed in non-linear nano, meso and macroscopic terms with no ad hoc parameters including time developments. This suggests that fracture may be an example of a complexity system.

Strength, Fracture and Complexity is devoted to solving the problem of strength and fracture in a non-linear and systematic manner as a complexity system. It will welcome attempts to develop new paradigms and studies which fuse together nano, meso, microstructure, continuum, and large-scale approaches. Whether theoretical or experimental, or both, these are welcome. Presentation of empirical data is also welcome, as an addition to practical knowledge. Deformation and fracture in geophysics and geotechnology are also acceptable, particularly in relation to earthquake science and engineering. Other future problems in fracture will be accepted as additional subjects.

Fracture has been studied for many years, for instance more than 160 as far as fatigue is concerned. Even though nanostudies and computational science are rapidly developing, it and its related problems remain unsolved, such as using equations expressed in non-linear nano, meso and macroscopic terms with no ad hoc parameters including time developments. This suggests that fracture may be an example of a complexity system. Strength, Fracture and Complexity: An International Journal is devoted to solving the problem of strength and fracture in a non-linear and systematic manner as a complexity system. It will welcome attempts to develop new paradigms and studies which fuse together nano, meso, microstructure, continuum and large-scale approaches.

Whether theoretical or experimental, or both, these are welcome. Presentation of empirical data is also welcome, as an addition to practical knowledge. Deformation and fracture in geophysics and geotechnology are also acceptable, particularly in relation to earthquake science and engineering. Other future problems in fracture will be accepted as additional subjects.

Editor-in-Chief
Teruo Kishi The University of Tokyo, Japan
Executive Editor
Founding Editor
Honorary Editor
International Advisory Editorial Board
Grigory I. Barenblatt University of California, USA
Janne Carlsson Royal Institute of Technology, Sweden
Alberto Carpinteri Polytechnic University of Turin, Italy
Yuri A. Ossipyan Russian Academy of Sciences, Russia
Ashok Saxena University of Arkansas, USA
Karl-Heinz Schwalbe Institute for Materials Research, Germany
George Webster Imperial College, UK
Editor
W. W. Gerberich University of Minnesota, USA
Jorg F. Kalthoff Ruhr University Bochum, Germany
Takashi Kuriyama Yamagata University, Japan
Jean Lemaitre LMT-Cachan, France
Yiu-Wing Mai University of Sydney, Australia
Kamran Nikbin Imperial College, UK
Go Ozeki Teikyo University, Japan
Yapa D S Rajapakse Office of Naval Research, USA
Shinsuke Sakai The University of Tokyo, Japan
Yasuhide Shindo Tohoku University, Japan
Yuji Tanabe Niigata University, Japan
Keiichiro Tohgo  
Kee Bong Yoon Chung Ang University, South Korea
Editorial Board Member
Takeshi Isogai Teikyou University, Utsunomiya, Japan
Toshihito Ohmi Shonan Institute of Technology, Fijisawa, Japan
  • EBSCO
  • Ei Compendex
  • Emerging Sources Citation Index (ESCI)
  • ProQuest
  • SCOPUS
  • Individual Subscription, E-access


    Individual Subscription, Combined (Print & E-access)


    Institutional Subscription, E-access


    Institutional Subscription, Print Only


    Institutional Subscription, Combined (Print & E-access)


    Individual, Single Print Issue


    Institutional, Single Print Issue