Elevated temperature design and analysis, nonlinear analysis, and plastic components--2004
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Elevated temperature design and analysis, nonlinear analysis, and plastic components--2004 presented at the 2004 ASME/JSME Pressure Vessels and Piping Conference : San Diego, California, USA, July 25-29, 2004 by

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Published by American Society of Mechanical Engineers in New York, N.Y .
Written in English

Subjects:

  • Materials at high temperatures -- Congresses.,
  • Metals -- Effect of high temperatures on -- Congresses.

Book details:

Edition Notes

Includes bibliographical references and author index.

Statementsponsored by the Pressure Vessels and Piping Division, ASME ; principal editors, M. Hayashi, T. Shimakawa, W.J. Koves ; contributing editors, C. Becht IV ... [et al.].
GenreCongresses.
SeriesPVP ;, v. 472, PVP (Series) ;, v. 472.
ContributionsHayashi, M., Shimakawa, T., Koves, William J., Becht, C., American Society of Mechanical Engineers. Pressure Vessels and Piping Division., Pressure Vessels and Piping Conference (2004 : San Diego, Calif.)
Classifications
LC ClassificationsTA418.24 .E542 2004
The Physical Object
Paginationviii, 246 p. :
Number of Pages246
ID Numbers
Open LibraryOL3383438M
ISBN 100791846679
LC Control Number2004558794
OCLC/WorldCa56350555

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Elevated Temperature Design and Analysis, Nonlinear Analysis, and Plastic Components Validity of High-Temperature Strength Standards for Heat Resistant Steels F. .   Carter, Peter, Marriott, D. L., and Swindeman, M. J. "Cyclic Analysis for High Temperature Design." Proceedings of the ASME/JSME Pressure Vessels and Piping Conference. Elevated Temperature Design and Analysis, Nonlinear Analysis, and Plastic : Peter Carter, D. L. Marriott, M. J. Swindeman. Schramm, Konrad. "Plastic Analysis of a Reactor Pressure Vessel Support Pad With Different Methods From Appendix F, Faulted Conditions, Comparison of Allowable Loads." Proceedings of the ASME/JSME Pressure Vessels and Piping Conference. Elevated Temperature Design and Analysis, Nonlinear Analysis, and Plastic Components. San Diego Author: Konrad Schramm. Otani, Akihito, Nakamura, Izumi, and Takada, Hajime. "Simplified Elasto-Plastic Response Analysis Method of Piping." Proceedings of the ASME/JSME Pressure Vessels and Piping Conference. Elevated Temperature Design and Analysis, Nonlinear Analysis, and Plastic Components. San Diego, California, USA. July 25–29, pp. ASME.

Zhenhai Guo, Xudong Shi, in Experiment and Calculation of Reinforced Concrete at Elevated Temperatures, Characteristics of Plastic Hinges at Elevated Temperatures. The plastic limit analysis of a statically indeterminate reinforced concrete structure under common actions of temperature and load are the same as that of the structure at room temperature, if the influence of . Nonlinear Plastic Hinge Analysis of Three-Dimensional Steel Frames in Fire modeled by two nested stress-resultant surfaces and takes into consideration the softening effect of steel material at elevated temperature. Derivation of the inelastic stiffness of a 3D beam-column element is presented. Notional‐Load Plastic‐Hinge Method for. A nonlinear finite element analysis based on the heat transfer theory is firstly performed to determine the temperature distribution throughout the cross section of a reinforced concrete beam, in which four-node rectangular elements are utilised to discretise the cross section of the beam. The authors have proposed an influence function method by which stress intensity factor, K, of surface cracks can be calculated easily for arbitrarily distributed surface have developed the database of influence coefficients, K ij, for various types of surface cracks through a series of finite element analyses [1].And they also have developed a software system “SCAN”, based.

Purchase Nonlinear Finite Element Analysis of Composite and Reinforced Concrete Beams - 1st Edition. Print Book & E-Book. ISBN ,   The present study involved using a finite element analysis program as ABAQUS (Simulia , to perform a geometrically and materially non-linear analysis with imperfections (GMNIA analysis) of a cylindrical shell and to analyze buckling behavior under an elevated temperature with respect to fire exposure, length, and diameter/thickness (D/t. Topics: Bellows (Equipment), Mechanical behavior, Stress, Finite element model, Deformation, Design, Dynamic testing (Materials), Engineering simulation, Finite element analysis, Simulation A Two-Parameter Description of the Behaviour of a Process Zone at a Crack Tip: Part I — General Theory. @article{osti_, title = {General purpose nonlinear analysis program FINAS for elevated temperature design of FBR components. [FINAS code]}, author = {Iwata, K and Atsumo, H and Kano, T and Takeda, H}, abstractNote = {This paper presents currently available capabilities of a general purpose finite element nonlinear analysis program FINAS (FBR Inelastic Structural Analysis System) which.