TY - JOUR AU - Kharchenko, Sergei AU - Barsuk, Andriy AU - Karimova, Nurlana AU - Nanka, Alexander AU - Pelypenko, Yevhen AU - Shevtsov, Vadim AU - Morozov, Ivan AU - Morozov, Vladimir PY - 2021/05/27 Y2 - 2024/03/28 TI - Mathematical model of the mechanical properties of Ti-alloyed hypoeutectic cast iron for mixer blades JF - EUREKA: Physics and Engineering JA - Eureka: PE VL - IS - 3 SE - Engineering DO - 10.21303/2461-4262.2021.001830 UR - https://journal.eu-jr.eu/engineering/article/view/1830 SP - 99-110 AB - The object of research is hypoeutectic cast iron intended for cast parts operating under abrasive friction conditions. Such parts are mixer blades, the operational properties of which include durability, assessed by abrasion resistance and strength. To give the blades such properties, cast irons, which are materials of the blades, are alloyed with elements that contribute to the formation of carbides of various compositions. The main problem that impedes the targeted selection of materials for mixer blades or finished blades from different materials or different chemical composition is the lack of substantiated selection criteria. If the shipment is carried out only with the provision of data on the chemical composition of the alloy, it is necessary to be able to evaluate the expected mechanical properties, in particular abrasion resistance and strength.Using the methods of regression analysis, a mathematical model has been obtained that includes two regression equations, which allows for a targeted selection of the chemical composition that provides the maximum possible value of mechanical properties – ultimate strength and coefficient of wear resistance. Optimization of the chemical composition, carried out according to this model, made it possible to determine the following chemical composition: C=2.94 %, Ceq=3.3 %, Ti=1.56 %, providing the maximum ultimate strength σb=391 MPa; C=2.78 %, Ceq=3.14 %, Ti=1.61 %, providing a maximum wear resistance coefficient Kwr=12 %.In the case of priority of the strength criterion, the calculated optimal chemical composition makes it possible to reduce the mass-dimensional characteristics of the mixing units of the mixers.A procedure is proposed for using this model to select a batch of blades with the expected best performance properties ER -