TY - GEN A1 - Amirli, Samir A1 - Fritzsche, Pascal A1 - Abbasov, Ilgar A1 - Wichmann, Steffen A1 - Simon, Sylvio A1 - Amirov, Fariz A1 - Mammadov, Arastun T1 - The İmpact of High Speed Mechanical Processing Efficiency on the Production Process T1 - Влияние высокоскоростной механической обработки на производственный процесс T2 - HERALD of the Azerbaijan Engineering Academy N2 - The main purpose of the article is to increase productivitiy, reduce processing time and the same time increase the cutting speed. The results are also displayed in Excel using a number of cutting parameters. For this purpose, the article shows the results of both high-speed milling and high-speed turning of a machine with different types of tools, as well as processing of one tool on different types of machines. Unlike other machines, in general, the work on the machines of universal processing centers turned out to be more productive. The feed rate of the machine tools is the focus area here. If we increase cutting values, then the tool life is reduced and that leads to higher tool costs. With universal high-performance machines we cannot save costs for tools (we can only save machine tool costs). Compared to universal high-performance machines, we can save tool costs with Universal Machining Center. Therefore, it is suggested to the machining with the universal machining center, although the machining time and cutting time is faster with the universal high-performance machine. N2 - В статье показаны результаты как высокоскоростной фрезерной, так и высокоскоростной токарной обработки станка с разными типами инструментов, а также обработки одного инструмента на разных типах станков. В отличие от других станков, работа на станках универсальных обрабатывающих центров оказалась более производительной. В центре внимания здесь скорости подачи станков. Если мы увеличиваем параметры резания, то срок службы инструмента снижается, что приводит к увеличению затрат на инструмент. С универсальными высокопроизводительными станками мы не можем сэкономить на инструментах (мы можем сэкономить только на станках). По сравнению с универсальными высокопроизводительными станками, мы можем сэкономить на инструментальных средствах с помощью универсального обрабатывающего центра. Поэтому рекомендуется выполнять обработку на универсальном обрабатывающем центре, хотя время обработки и время резки меньше на универсальном высокопроизводительном станке. KW - Energy efficiency KW - High speed mechanical processing KW - Production KW - Neseff Y1 - 2022 U6 - https://doi.org/10.52171/2076-0515_2022_14_01_41_51 SN - 2076-0515 SN - 2789-8245 VL - 14 IS - 1 SP - 41 EP - 51 ER - TY - GEN A1 - Simon, Sylvio A1 - Abbasov, Ilgar A1 - Fritzsche, Pascal Dirk T1 - Influence of optimization of cutting parameters and tools in turning roughing on surface roughness and energy efficiency T2 - "Machine -building and Energy: New Concepts and Technologies" I nternational S cientific -practical C onference MATER IALS, December 2-3, 2021, AzTU, Baku, Azerbaijan N2 - This paper examines the surface roughness and power consumption of the machine when using different inserts and cutting parameters in rough turning. For this purpose, the surface quality of the parts, cutting parameters at different levels (cutting speed, feed rate, depth of cut) and optimal tools that influence the energy when machining S355JR steel material of different cutting tools were used in the turning process. KW - Turning KW - roughing KW - surface roughness KW - energy efficiency Y1 - 2021 UR - https://www.researchgate.net/publication/366517207_Machine_-building_and_Energy_New_Concepts_and_Technologies_I_nternational_S_cientific_-practical_C_onference_MATER_IALS SP - 12 EP - 14 PB - Universität CY - Baku ER - TY - GEN A1 - Simon, Sylvio A1 - Taeschner, Dirk A1 - Rieder, Thomas A1 - Schneider, Robert A1 - Hernschier, Stephan A1 - Magister, Jan A1 - Fritsch, Tim A1 - Abbasov, Ilgar A1 - Turabov, Dashqin A1 - Globa, Svetlana T1 - Investigation in characteristics of belt conveyors and their idler rollers for coal-fired power plants T1 - Исследования характеристик ленточных конвейеров и их несущих роликов для угольных электростанций T2 - Safety and Reliability of Power Industry N2 - Belt conveyors are highly efficient systems used in mining and other industries to transport bulk materials, mainly brown coal and overburden, over distances ranging from short distances to several kilometres. For technical reasons, their operation is associated with noise emissions. During inspections and maintenance this can lead to increased noise exposure of employees. In the vicinity of residential buildings or in areas needing protection, exceeding the emission limits can lead to a temporary restriction of the operation of these high performance installations. Measures are required to reduce the noise impact primarily at the source or in the immediate vicinity. The acoustic and mechanical parameters are investigated on a test bench at the Technical University of Brandenburg (BTU) Cottbus-Senftenberg as part of the drive assembly tests in cooperation with LEAG. The stages of these tests are: Run-up test. In this test the supporting roller is accelerated under test load to a circumferential speed of 10 m/s and the sound pressure level is recorded. This makes it possible to calculate the sound emission as a function of the peripheral speed; Recording the geometry of the idler gear. An accurate description of the geometry of the idler housing allows conclusions to be drawn about the possible causes of excitation. The defined characteristics serve to quantify the acoustic effect of the driven rollers and derive specifications for use in belt conveyor systems. Based on the special requirements to the planned belt conveyor system, an adapted selection of low-noise idler rollers can be made at an early stage on the basis of specified parameters and confirmed test results. KW - belt conveyor KW - noise reduction KW - test stand KW - sound pressure level Y1 - 2021 U6 - https://doi.org/10.24223/1999-5555-2021-14-3-125-133 SN - 2542-2057 SN - 1999-5555 VL - 14 IS - 3 SP - 125 EP - 133 ER -