K. S. Abdullaev scite author profile

Iron-based alloys began to be used so long ago that today they are classified as classical materials, since these alloys have been studied in depth. The production of various products from steel and cast iron naturally takes the first place in terms of volume, since they have a valuable set of properties: a wide range of plasticity and strength, unique technological properties, which makes it possible to apply all technological operations to them - from simple casting into earth to complex pressure treatment processes. This combination of properties provides, first of all, the composition of iron-based alloys with the main alloying element – carbon. The serious disadvantage of ferrous alloys is their low level of corrosion properties. To eliminate this drawback, both steel and cast iron are alloyed with such metals as chromium, nickel, cobalt, etc. Naturally, this leads to an increase in the mass of finished products and structures. Therefore, the search for alloying elements to improve and optimize the composition of ferrous alloys is relevant today. On the other hand, the industry of Uzbekistan produces a sufficient amount of transition, rare earth metals. Thus, the task is to get added value from the production and processing of these non-ferrous metallurgy products. The analysis of the known literature data on this topic shows that research has been carried out on the use of various transition and rare earth metals for alloying ferrous alloys. However, the available scientific results do not allow to speak about systemic knowledge about the use of rare earth and/or transition metals as effective additives for steels and cast irons. The authors studied phase equilibria, determined the compositions of the phases and the reactions occurring in the systems, constructed phase diagrams, their isothermal sections, determined the structure of iron-based alloys with additions of rare-earth and transition metals with all structural components. The prospect of using the products of nonferrous metallurgy of Uzbekistan for the production of high-quality steels and cast irons is shown.

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modeling frame, flexible production system, search and selection algorithm, frame slot, graph diagram

Mamedov

Abdullaev

Muradli

et al. 2020

Vestn. Dagest. gos. teh. univ., Teh. nauki

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Abstract. Aim. The aim of the study is to develop algorithmic support based on a frame model for information retrieval and selection of a flexible manufacturing system (FMS), as well as its technical units and control system in accordance with a process flow diagram.Method. An intelligent method based on a frame model is used in order to create a search and selection algorithm. The FRL programming language was used for programming the frame model.Results. In accordance with the published guidelines for ensuring the management and operation of archival design work, a comparative analysis of information support algorithms was carried out to in order to select flexible production systems (FPS) comprising standard elements, production modules, layout schemes and a set of information about their parameters or the location of documents. The model for creating algorithmic support was based on the modelling frame for the effective search and selection of the FMS, while its production modules and active elements were implemented in accordance with the scope of production and the purposes of each technical unit.Conclusion. To ensure the reliable functioning of the FMS automatic control system, an algorithm is proposed for searching sensors based on frame slots and achievable positioning errors of industrial robots and technological equipment. An algorithm for locating sensors and controlling the active elements of an FMS production module is presented.

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K. S. Abdullaev

Searching and Selection of a Flexible Manufacturing System by Means of Frame Model

Phase transformations in iron-carbon alloys doped with rare earth and transition metals

modeling frame, flexible production system, search and selection algorithm, frame slot, graph diagram

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