Abstract
A search method for finding rational parameters of beam structure bearing capacity recovery systems has been developed. This task is relevant to historic buildings containing girders with structural damage. The solution search technique is implemented by the example of calculating the parameters for timber beams external bearing capacity restoration systems with local damage or destruction of supports. An adapted genetic algorithm is used as a tool to solving the problem. A feature of this algorithm is the use of an improved random change operator and the formation of an initial and subsequent solutions sets. In this case, classical evolutionary modelling operators are not used, and the preservation of solutions from iteration to iteration is performed based on modification of the well-known elitism principle. Such computational process has allowed increasing the convergence of the iterative optimization significantly for the tasks considered. Ensuring the structure safety is achieved by strength conditions and regulating the system deflection while minimizing the costs for its operation. Herewith, the objective function allows taking into account both the lump-sum costs for system restoration arrangement and the costs for maintaining its operation during the operation cycle. An example of restoring the beam bearing capacity with the loss of stiffness of its supporting and middle span sections has been considered.
Highlights
The issues of calculation and design of timber structures are important for current studies in engineering science [1, 2]
One of the relevant trends in this area is the repair of timber beam structures used in restoration and reconstruction of cultural heritage sites, and in restoration of bearing capacity of damaged ceiling systems and rafters with long operational cycle (Fig. 1)
In work [3], timber beam structures are restored by using the glued rods, in article [4], for multilayer glued beams with lamination, self-tapping screws with plywood sheets are used and it is proved that the greatest effect is achieved by the preventive repair
Summary
The issues of calculation and design of timber structures are important for current studies in engineering science [1, 2]. Apart from steel prostheses, reinforced concrete ones [8] become common, which are fastened to wooden elements of gluing deformed reinforcement Such prostheses are used to strengthen the timber frame joints. The second is based on the application of the limit equilibrium method theorems using an elastoplastic material model that allows reproducing the brittle fracture modes quite accurately. The latter is based on the continual micromechanics suppositions with limited elastic strains.
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