The subject of analysis in this paper are rope based mechanisms for the movement of the telescopic conveyors substructure. Experimental test of ropes in conjunction with pulleys on 2 telescopic conveyors were performed in order to assess the real cause of damage and cracking of ropes in a full sense, which occurred in the real application of the conveyor at the site. These are examples of two conveyors with the same characteristics on which combinations of ropes with characteristics of construction of cross section 7x19 and construction of cross section 19x7 are placed, as well as combinations of pulleys with two kinds of grooves. Some specific tests are performed that showed the best combination of construction driving system elements.
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In the production of expanded polystyrene, the standards are very high in terms of thermal, fire, dimensional, and mechanical characteristics, because each of the characteristics is a condition for achieving quality that allows competitiveness in the market. To ensure high-quality products, it is necessary to achieve optimal performance and product quality through carefully adjusted input parameters of production. Since the production of expanded polystyrene is specific in several ways, an experimental study was conducted in which the basic parameters affecting product quality were detected and through which a series of experiments were performed to prove product quality. Experimental research for this work was conducted on three types of expanded polystyrene samples whose purpose is to insulate floors exposed to pressure. The samples were made of the same material of different densities and aging times for which the pressure stress at a deformation of 10% was tested. After the experimental phase, the modeling of the output parameters was performed. Modeling involved the development of a model that describes a given problem and the obtained modeled values were analyzed and compared with the experimental one. The modeling method used genetic programming using the GPdotNET software package. The goal of modeling with the GpdotNET tool is to obtain a realistic model that would give the value of the compression stress at a deformation of 10% as an output variable in materials made of expanded polystyrene. 2ff7e9595c
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