Abstract
The architecture and functionality of a program system that implements the paradigm of parallel execution of SIMD-tasks, in which a certain class of coatings with different parameter sets of particles sprayed onto the surface of technical products are simulated, is considered. Each SIMD-task uses a copy of the same computing module, which implements the computational foundations of a previously created software package for simulation the layered structure of a gas-thermal coating and calculating its functional characteristics. The program system allows you to run a series of computational experiments with the least amount of time due to the parallel running of SIMD-tasks for simulation a class of functional coatings, taking into account various spraying modes, and save electronic reports with illustrative research material in archival storage. The paper presents the results of simulation a class of coatings made of titanium nickelide (TiNi), taking into account various sets of “key physical parameters” (KPPs) of particles, characterizing different modes of coating spraying. In addition, based on the simulation results, an analysis was carried out of the variability of the coatings functional characteristics (porosity and adhesive strength of coatings, surface roughness of coatings) when varying the KPP-values in certain ranges. As a result of analyzing the simulation results of TiNi coatings and calculating their functional characteristics, optimal modes for the stable spraying of TiNi coatings on two types of substrates (on a Steel45 substrate and on a titanium substrate) were established.
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Acknowledgments
This study was supported by the Basic Research Program of the State Academies of Sciences for 2021–2023, project no. AAAA-A17-117030610124-0. This study was performed on the equipment of the Collective Use Center Mechanics (Khristianovich Institute of Theoretical and Applied Mechanics of the Siberian Branch of the Russian Academy of Sciences).
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Jordan, V., Blednov, V. (2024). Study of the Functional Characteristics of TiNi Coatings by the Computer-Aided Simulation Using Parallel Computing. In: Jordan, V., Tarasov, I., Shurina, E., Filimonov, N., Faerman, V.A. (eds) High-Performance Computing Systems and Technologies in Scientific Research, Automation of Control and Production. HPCST 2023. Communications in Computer and Information Science, vol 1986. Springer, Cham. https://doi.org/10.1007/978-3-031-51057-1_6
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