![]() Ivannikov, S.N., Manaenkov, I.V.: Obespechenie parametricheskoj nadezhnosti tekhnologicheskih mashin (Ensuring parametric reliability of technological machines). įeng, C., Yang, Z., Chen, C., Guo, J., Tian, H., Meng, F.: Quantitative evaluation method for machining accuracy retention of CNC machine tools considering degenerate trajectory fluctuation. Lecture Notes in Mechanical Engineering, pp. (eds.) Proceedings of the 8th International Conference on Industrial Engineering, ICIE 2022. Ivannikov, S., Manaenkov, I., Krutyakova, M.: Assessing the Thermal State of Metal-Working Machinery. Lukina, S.V., Ivannikov, S.N., Manaenkov, I.V.: Metodika formirovaniya i vybora optimal’noj konfiguracii formoobrazuyushchej sistemy mnogokoordinatnoj obrabotki (Methodology for forming and selecting the optimal configuration of the shaping system for multi-axis machining). ![]() Lukina, S., Manaenkov, I.: Methodology of multiaxial machines formats volumetric accuracy comparative evaluation (Methodology of multiaxial machines formats volumetric accuracy comparative evaluation). Lukina, S.V., Manaenkov, I.V.: Povyshenie effektivnosti mnogokoordinatnoj obrabotki putem upravleniya ob”emnoj tochnost’yu formoobrazuyushchej stanochnoj sistemy na etape NIOKR (na primere stankov dlya lazernoj obrabotki) (Improving the efficiency of multi-axis machining by controlling the volumetric accuracy of the shaping machine system at the R&D stage (on the example of laser machining machines)), Moscow (2016) Lukina, S.V., Ivannikov, S.N., Manaenkov, I.V.: Povyshenie effektivnosti mnogokoordinatnoj obrabotki putem optimizacii komponovki mnogoosevoj stanochnoj sistemy (Increasing the efficiency of multi-axis machining by optimizing the layout of the multi-axis machine system). Lukina, S.V., Manaenkov, I.V.: Povyshenie effektivnosti mnogokoordinatnogo frezerovaniya prostranstvenno-slozhnyh poverhnostej na stankah s ChPU (Increasing the efficiency of multiaxis milling of spatially complex surfaces on CNC machines). Lukina, S., Ivannikov, S., Krutyakova, M.: Predictive simulation tool for control over precision of geometrically complex mould making at preproduction engineering stage. In: Radionov, A.A., Kravchenko, O.A., Guzeev, V.I., Rozhdestvenskiy, Y.V. ![]() Manaenkov, I., Makarov, V.: Forming and selection technique for optimal configuration of form-shaping system for multiple-axis machining. Lukina, S.V., Krutyakova, M.V., Ivannikov, S.N.: Modelling and study of the stress-strain state of the modular turning tools using numerical finite element method. Lukina, S., Krutyakova, M., Ivannikov, S.: Designing spline broaches of optimal structure. Sotnikova, E.V., Kalpina, N.Y.: Energy savings through rationalization of exhaust ventilation emission treatment technology. In: Proceedings of the MSTU MAMI, Moscow (2010) Ivannikov, S.N., Kuzminskij, D.L.: Nadyozhnost i diagnostika tekhnologicheskogo oborudovaniya (Reliability and diagnostics of technological equipment). The goal of this work is to develop a parametric reliability assurance method for metal-working equipment based on the study of spindle unit movement trajectories, whose parameters are directly linked to quality indicators (geometric parameters) or products. The impact of the dynamic and thermal processes taking place in metal-working equipment on its parametric reliability shall be assessed by the rate and type of changes in the output parameters of spindle units, which stands for the trajectories of the forming spindle movements. Spindle units operating under constant impacts from an array of operational loads are the dominant dynamic and thermally-loaded systems in metal-working equipment because they contain the main sources of vibrations and temperature deformations, which results in their leading role in the definition of the parametric reliability of equipment. ![]() Spindle units are the key forming modules that define the parametric reliability of metal-working equipment as any errors in their operation are transferred to the products. Modern highly-automated mechanical production implementing minimally-manned and unmanned operations makes the parametric reliability of metal-working machinery a prioritized aspect as it helps maintain the required values of output parameters defining the quality of the products, the requirements for which are constantly increasing. ![]()
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