A finite element computational model for the nonlinear analysis of reinforced concrete solid, stiffened and cellular plates is briefly outlined. Typically, Mindlin elements are used to model the plates whereas eccentric Timoshenko elements are adopted to represent the beams. The layering technique, common in the analysis of reinforced concrete flexural systems, is incorporated in the model. The proposed model provides an inexpensive and reasonably accurate approach which can be extended for use with voided plates
A back stress/drag stress constitutive model based on a crystallographic approach to model single cr...
Principles of similarity and other factors in the design of models for photoelastic testing are disc...
A viscoplastic constitutive theory is presented for representing the high temperature deformation be...
This report gives formulas for analyzing the critical shear load of a simply supported square, isotr...
The development is described of a mathematical model for predicting the strength and micromechanical...
For the improvement of rail service, the Department of Transportation, Federal Rail Administration, ...
The mechanics of materials approach (definition of E, G, Nu, and Alpha) and the finite element metho...
The use of graphite fiber/resin matrix composite to effectively reinforce a standard steel truck fr...
The utilization of piezoelectric actuators in controlling the static deformation and shape of flexib...
The work deals with the static analysis of plane stress, plane strain, axisymmetric and shell reinfo...
A computer code is presented for the sublaminate/ply level analysis of composite structures. This co...
Numerical solution for estimating plastic enclave size at tips of cracks emanating from edges or fro...
The problem of converting boundary representation (B-rep) to constructive solid geometry representat...
Theoretical study of plate thickness effect on bending stress distribution around slotted crack
An electronic device consists of multi-layered submicron-thick films, and delamination often takes p...
A back stress/drag stress constitutive model based on a crystallographic approach to model single cr...
Principles of similarity and other factors in the design of models for photoelastic testing are disc...
A viscoplastic constitutive theory is presented for representing the high temperature deformation be...
This report gives formulas for analyzing the critical shear load of a simply supported square, isotr...
The development is described of a mathematical model for predicting the strength and micromechanical...
For the improvement of rail service, the Department of Transportation, Federal Rail Administration, ...
The mechanics of materials approach (definition of E, G, Nu, and Alpha) and the finite element metho...
The use of graphite fiber/resin matrix composite to effectively reinforce a standard steel truck fr...
The utilization of piezoelectric actuators in controlling the static deformation and shape of flexib...
The work deals with the static analysis of plane stress, plane strain, axisymmetric and shell reinfo...
A computer code is presented for the sublaminate/ply level analysis of composite structures. This co...
Numerical solution for estimating plastic enclave size at tips of cracks emanating from edges or fro...
The problem of converting boundary representation (B-rep) to constructive solid geometry representat...
Theoretical study of plate thickness effect on bending stress distribution around slotted crack
An electronic device consists of multi-layered submicron-thick films, and delamination often takes p...
A back stress/drag stress constitutive model based on a crystallographic approach to model single cr...
Principles of similarity and other factors in the design of models for photoelastic testing are disc...
A viscoplastic constitutive theory is presented for representing the high temperature deformation be...