Archives of Civil Engineering

The paper has proposed a mathematical model for parametric optimization problem of the steel lattice portal frame. The design variable vector includes geometrical parameters of the structure (node coordinates), as well as cross-sectional dimensions of the structural members. The system of constraints covers load-carrying capacities constraints formulated for all design sections of structural members of the steel structure subjected to all ultimate load case combinations. The displacements constraints formulated for the specified nodes of the steel structure subjected to all serviceability load case combinations have been also included into the system of constraints. Additional requirements in the form of constraints on lower and upper values of the design variables, constraints on permissible minimal thicknesses, constraints on permissible maximum diameter-to-thickness ratio for the structural members with circle hollow sections, as well as the conditions for designing gusset-less welded joints between structural members with circle hollow sections have been also considered in the scope of the mathematical model. The method of the objective function gradient projection onto the active constraints surface with simultaneous correction of the constraints violations has been used to solve the formulated parametric optimization problem. New optimal layouts of the steel lattice portal frame by the criterion of the minimum weight, as well as minimum costs on manufacturing and erection have been presented.

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Formation of Computational Schemes of Additional Targeted Constraints That Regulate the Frequency Spectrum of Natural Oscillations of Elastic Systems With a Finite Number of Degrees of Mass Freedom, the Directions of Movement of Which Are Parallel, but Do Not Lie in the Same Plane

Lyakhovich¹,

Akimov²,

Mescheulov³

2022

IJCCSE

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For some elastic systems with a finite number of degrees of freedom of masses, in which the directions of mass movement are parallel and lie in the same plane (for example, rods), special methods have been developed for creating additional constraints, the introduction of each of which purposefully increases the value of only one natural frequency and does not change any from the natural modes. The method of forming a matrix of additional stiffness coefficients that characterize such targeted constraint in this problem can also be applied when solving a similar problem for elastic systems with a finite number of degrees of mass freedom, in which the directions of mass movement are parallel, but do not lie in the same plane (for example, plates). At the same time, for such systems, only the requirements for the design schemes of additional targeted constraints are formulated, and not the methods for their creation. The distinctive paper is devoted to solution of corresponding sample of plate analysis with the use of approach that allows researcher to create computational schemes for additional targeted constraints for such systems.

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Archives of Civil Engineering

Cited by 5 publications

References 17 publications

Parametric Optimization of Metal Rod Structures Using the Modified Gradient Projection Method

Parametric Optimization of Metal Rod Structures Using the Modified Gradient Projection Method

Application of improved gradient projection method to parametric optimization of steel lattice portal frame

Formation of Computational Schemes of Additional Targeted Constraints That Regulate the Frequency Spectrum of Natural Oscillations of Elastic Systems With a Finite Number of Degrees of Mass Freedom, the Directions of Movement of Which Are Parallel, but Do Not Lie in the Same Plane

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