Research Article
Feb 1977
K-Solutions with Assumed-Stress Hybrid Elements
Authors: Oscar Orringer, Ken-Yuan Lin, George Stalk, Pin Tong, and James W. MarAuthor Affiliations
Publication: Journal of the Structural Division
Volume 103, Issue 2
Abstract
The hybrid crack-containing finite element provides a powerful tool for fracture mechanics analysis of geometries too complicated to be treated by classical mehods. The basis of the hybrid method is reviewed, with emphasis upon the techniques used for crack elements. A new family of axisymmetric and plane-stress bi-material crack elements is introduced through example solutions of simple problems. Also, several example applications of analyses of real structural details with a single-material plane stress crack element are presented.
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Published In
Journal of the Structural Division
Volume 103 • Issue 2 • February 1977
Pages: 321 - 334
Copyright
© 1977 American Society of Civil Engineers.
History
Published in print: Feb 1977
Published online: Feb 1, 2021
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Authors
Affiliations
Oscar Orringer
Assoc. Dir., Aeroelastic and Structures Research Lab., Massachusetts Inst. of Tech., Cambridge, Mass.
Ken-Yuan Lin
Research Asst., Aeroelastic and Structures Research Lab., Massachusetts Inst. of Tech., Cambridge, Mass.
George Stalk
Research Asst., Aeroelastic and Structures Research Lab., Massachusetts Inst. of Tech., Cambridge, Mass.
Pin Tong
Prin. Staff Scientist, Mechanics Div., DOT Transportation Systems Center, Cambridge, Mass.
James W. Mar
Prof. of Aeronautics and Astronautics, Massachusetts Inst. of Tech., Cambridge, Mass.
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Terms of Use: ASCE Library Cards are for individual, personal use only. Reselling, republishing, or forwarding the materials to libraries or reading rooms is prohibited.
Terms of Use: ASCE Library Cards are for individual, personal use only. Reselling, republishing, or forwarding the materials to libraries or reading rooms is prohibited.