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Triaxial compression tests were performed on 6-inch by 12-inch concrete cylinders. Axial pressures of up to 177,000 psi and lateral pressures of up to 75,000 psi were applied in the triaxial testing machine of the Bureau of Reclamation, Denver. Concrete mixes with average compressive strengths of 5,200 psi, 8,100 psi, and 8,700 psi were tested under four different types of triaxial compression. Type I and Type IV tests were run until the axial stress dropped or until 2 inches of axial deformation were produced. The results of the Type I and Type IV loadings differed little. Considerable bulging occurred, and it appeared that the average normal stress at midheight remained nearly constant during bulging and represented an approximate yield stress. Type II tests were run until the lateral stress had an effect. No drop-off of load occurred in the Type III tests, but the unconfined compressive strength of the concrete cylinders was decreased. The results obtained are in good agreement with those of previous investigators, but much higher stresses were attained in the present tests than in any previous tests. (Author).
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Manual of numerical methods in concrete aims to present a unified approach for the available mathematical models of concrete, linking them to finite element analysis and to computer programs in which special provisions are made for concrete plasticity, cracking and crushing with and without concrete aggregate interlocking. Creep, temperature, and shrinkage formulations are included and geared to various concrete constitutive models.
The aim of this Conference was to become a forum for discussion of both academic and industrial research in those areas of computational engineering science and mechanics which involve and enrich the rational application of computers, numerical methods, and mechanics, in modern technology. The papers presented at this Conference cover the following topics: Solid and Structural Mechanics, Constitutive Modelling, Inelastic and Finite Deformation Response, Transient Analysis, Structural Control and Optimization, Fracture Mechanics and Structural Integrity, Computational Fluid Dynamics, Compressible and Incompressible Flow, Aerodynamics, Transport Phenomena, Heat Transfer and Solidification, Electromagnetic Field, Related Soil Mechanics and MHD, Modern Variational Methods, Biomechanics, and Off-Shore-Structural Mechanics.