EVOLUTIONARY SEARCH OF RECOVERY SYSTEMS PARAMETERS FOR TIMBER BEAM STRUCTURES

The technique of optimal design of the recovery systems for the bearing capacity of timber beams using prosthetics with steel spatial systems is considered. This task is relevant for the reconstruction of cultural heritage sites that have damaged structural structures made of wood. Rational solutions are discrete sets of variable parameters using a micro genetic algorithm that uses, unlike the classical scheme of evolutionary modeling, only the operator of an adaptive multi-point mutation. The objective function is formed with the possibility of taking into account the priorities for the implementation of both the one-off costs for the device of prosthetics and the costs of operation during the exploitation period. An example of beam prosthesis is given where the required strength and rigidity of the structure is provided with the help of a restorative supporting and preventively installed span prosthesis.

evolutionary modeling, micro genetic algorithm, recover of timber structures, bearing capacity, adaptive mutation, optimization, strength, rigidity, objects of cultural heritage

1. Колчунов В.И., Пятикрестовский К.П. Особенности расчета деревянных конструкций на прочность по деформациям // Строительство и реконструкция. - 2013. - № 2 (46). - С. 25-32.

2. СП 64.13330.2011. Свод правил. Деревянные клееные и цельнодеревянные конструкции. Актуализированная редакция СНиП II-25-80. - М., 2011.

3. Pizzo B.; Lauriola M. Repair of timber end-beams: Some operational aspects / Protection of historical buildings - Prohitech 09: 1st International Conference on Protection of Historical Buildings, Rome, Italy. - 2009. - Vol. 1. - Pp. 397-402.

4. Ferreira J. G., Cruz H.; Silva R. Failure behaviour and repair of delaminated glulam beams // Construction and building materials. - 2017. - Vol. 154. - Pp. 384-398.

5. Pizzo B., Gavioli M., Lauriola M.P. Evaluation of a design approach to the on-site structural repair of decayed old timber end beams // Engineering Structures. - 2013. - Vol. 48. - Pp. 611-622.

6. Jorge M.B., Hélder S.S., Eleftheria T. Non-destructive assessment, full-scale load-carrying tests and local interventions on two historic timber collar roof trusses // Engineering Structures. - 2017. - Vol. 140. - Pp. 209-224.

7. Füssl J., Lia M., Lukacevic M., Eberhardsteiner J., Martin C.M. Comparison of unit cell-based computational methods for predicting the strength of wood // Engineering Structures. - 2017. - Vol. 141. - Pp. 427-443.

8. Metelli G., Preti M., Giuriani E. On the delamination phenomenon in the repair of timber beams with steel plates // Construction and Building Materials. - 2016. - Vol. 102. - Pp. 1018-1028.

9. Negrão J.H., Brito L.D., Dias A.G., Júnior C.C., Lahr F.R. Numerical and experimental study of small-scale moment-resistant reinforced concrete joints for timber frames / Construction and Building Materials. - 2016. - Vol. 118, Pp. 89-103.

10. Tamponea G., Ruggieri N. State-of-the-art technology on conservation of ancient roofs with timber structure // Journal of Cultural Heritage. - 2016. - Vol. 22. - Pp. 1019-1027.

11. Serpik I.N., Alekseytsev A.V., Balabin P.Y. Mixed Approaches to Handle Limitations and Execute Mutation in the Genetic Algorithm for Truss Size, Shape and Topology Optimization // Periodica Polytechnica Civil Engineering. - 2017. - №.61(3). - Pp. 471-482.