Substructure method for stress analysis of mass concrete structures

In the paper the experimental results considering the effects of temperature on the elastic modulus and creep of concrete are introduced into the mathematical models of the three-dimensional finite-element method to improve the calculation of creep stresses in mass concrete structures. The finite-el

## 1.  A new method is presented that retains all the advantages of the more elaborate existing Rayleigh-Ritz methods such as the revised approach presented by Jen et al. [1], but with two additional important advantages. The first advantage is related to simplicity of order reduction

## Abstract A modified force analogy method (MFAM) is developed to simulate the nonlinear inelastic response of reinforced concrete (RC) structures. Beam–column elements with three different plastic mechanisms are utilized to simulate inelastic response caused by moment and shear force. A multi‐lin

Reinforced concrete is a composite structural material which has been the subject of extensive research since it was first used. When considering the rational properties, the research has mainly centred on the behaviour of the concrete, that of the reinforcing steel and the interaction between the s