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https://nap.nationalacademies.org/catalog/27432/critical-issues-in-transportation-for-2024-and-beyond

ANALYSIS OF ORTHOTROPIC REINFORCED CONCRETE STRUCTURES

A MATHEMATICAL MODEL IS DERIVED FOR STRESS-STRAIN PROPERTIES OF REINFORCED CONCRETE. THE MODEL IS OBTAINED FROM STRESS-STRAIN RELATIONS OF REINFORCING STEEL AND PLAIN CONCRETE, AND FROM CONSIDERING SLIP IN BOND BETWEEN THEM. THE STRESS-STRAIN RELATIONS FOR PLAIN CONCRETE ARE BASED ON EXPERIMENTAL DATA OBTAINED UNDER UNIAXIAL, BIAXIAL AND TRIAXIAL COMPRESSIVE STRESS, AND BIAXIAL TENSILE AND COMPRESSIVE STRESS. THE MODEL STRESS-STRAIN RELATION IN EACH PRINCIPAL STRESS DIRECTION IS AFFECTED BY THE OTHER TWO PRINCIPAL STRESSES. THE FORM OF THE STRESS-STRAIN RELATION AND THE MANNER IN WHICH IT IS AFFECTED BY THE LATERAL PRINCIPAL STRESSES IS DIFFERENT IN TENSION AND COMPRESSION. A BILINEAR TENSILE-STRESS-STRAIN RELATION IS USED TO REPRESENT THE ELASTIC-PLASTIC PROPERTIES OF THE REINFORCING STEEL. UNTIL CRACKING OCCURS, PROPERTIES OF THE MODEL DEPEND ENTIRELY ON THE CONCRETE. AFTER CRACKING, A COMPOSITE MODULUS IS USED WHICH REFLECTS THE COMBINED STIFFNESS OF STEEL AND CONCRETE AND TAKES INTO ACCOUNT THE EXTENT TO WHICH BOND BETWEEN STEEL AND CONCRETE IS BROKEN. /AUTHOR/

  • Supplemental Notes:
    • Vol 96, No ST 12, PROC PAPER 7782, PP 2607-2624, 13 FIG,
  • Authors:
    • Isenberg, J
    • Adham, S
  • Publication Date: 1970-12

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Filing Info

  • Accession Number: 00209372
  • Record Type: Publication
  • Files: TRIS
  • Created Date: Feb 8 1971 12:00AM