Biaxial Analogs of Triaxial Stresses

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Volume 7, Issue 1 (January 1979)

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ISSN: 0090-3973
Page Count: 6

Biaxial Analogs of Triaxial Stresses
Ehrenburg, DO
Associate professor, School of Architecture and Environmental Design, California Polytechnic State University, Calif.

Abstract

In the case of composite materials such as concrete and natural rocks, fracture is resisted by internal friction, cohesion of the matrix, and adhesion at the interfaces. Although the behavior of an interface is clearly understood only when it is acted on by tensile forces, rock mechanics is primarily concerned with compressive forces. The apparent difficulty is circumvented by breaking down any given stress system into two components: an isotropic pressure and a tensile biaxial stress. The strength indicated by the latter component is precisely equal to that of the given stress system. Thus a condition of triaxial compression can be transformed into one of biaxial tension. An analysis based on this transformation indicates that the strength of composite materials in equal biaxial compression is considerably greater than in unconfined compression; this relationship becomes the keystone of a strength theory for composite materials.

Keywords:
brittleness, fractures (materials), stresses, triaxial compression, biaxial tension, biaxial analog, interface, strength theory

Paper ID: JTE11196J
DOI: 10.1520/JTE11196J
ASTM International is a member of CrossRef.

Author Title Biaxial Analogs of Triaxial Stresses Symposium , 0000-00-00 Committee D18

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of Testing and Evaluation (JTE) / Citation Page Volume 7, Issue 1 (January 1979) Click here to download this paper now for $25 PDF (176K) View License Agreement ISSN: 0090-3973 Page Count: 6 Biaxial Analogs of Triaxial Stresses Ehrenburg, DO Associate professor, School of Architecture and Environmental Design, California Polytechnic State University, Calif. Abstract In the case of composite materials such as concrete and natural rocks, fracture is resisted by internal friction, cohesion of the matrix, and adhesion at the interfaces. Although the behavior of an interface is clearly understood only when it is acted on by tensile forces, rock mechanics is primarily concerned with compressive forces. The apparent difficulty is circumvented by breaking down any given stress system into two components: an isotropic pressure and a tensile biaxial stress. The strength indicated by the latter component is precisely equal to that of the given stress system. Thus a condition of triaxial compression can be transformed into one of biaxial tension. An analysis based on this transformation indicates that the strength of composite materials in equal biaxial compression is considerably greater than in unconfined compression; this relationship becomes the keystone of a strength theory for composite materials. Keywords: brittleness, fractures (materials), stresses, triaxial compression, biaxial tension, biaxial analog, interface, strength theory Paper ID: JTE11196J DOI: 10.1520/JTE11196J ASTM International is a member of CrossRef. Author Title Biaxial Analogs of Triaxial Stresses Symposium , 0000-00-00 Committee D18