@misc{AmirliFritzscheAbbasovetal., author = {Amirli, Samir and Fritzsche, Pascal and Abbasov, Ilgar and Wichmann, Steffen and Simon, Sylvio and Amirov, Fariz and Mammadov, Arastun}, title = {The İmpact of High Speed Mechanical Processing Efficiency on the Production Process}, series = {HERALD of the Azerbaijan Engineering Academy}, volume = {14}, journal = {HERALD of the Azerbaijan Engineering Academy}, number = {1}, issn = {2076-0515}, doi = {10.52171/2076-0515_2022_14_01_41_51}, pages = {41 -- 51}, abstract = {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.}, language = {en} } @misc{AmirovSimonWichmannetal., author = {Amirov, Fariz and Simon, Sylvio and Wichmann, Steffen and Amirli, Samir and Fraňa, Karel}, title = {Determining the Accuracy of Water Pressure Processing using 3D Scanning}, series = {HERALD of the Azerbaijan Engineering Academy}, volume = {13}, journal = {HERALD of the Azerbaijan Engineering Academy}, number = {3}, issn = {2076-0515}, pages = {38 -- 44}, abstract = {The article provides the results of the study of manufacturing tolerances in waterjet cutting by the method of three-dimensional (3D) measurements: shape deviations were shown by three-dimensional comparison of scanned samples. The dimensions were also measured using two-dimensional (2D) sections of the scanned samples. It has been determined that the clean waterjet cutting tends to separate soft materials such as plastic, foil, foam or paper, as well as food. Unlike the pure waterjet cutting, the abrasive cutting is used for hard materials such as steel, ceramics, glass. The optimal pressure for material processing has been calculated. Particular emphasis is placed on the separation of composite materials, which cannot be satisfactorily accomplished using conventional methods.}, language = {ru} } @misc{SimonYusubovAmirli, author = {Simon, Sylvio and Yusubov, Nizami and Amirli, Samir}, title = {Formation of Geometric Parameters of the Surfaces of Cylindrical Parts during Waterjet Cutting}, series = {Machine Building and Energy: New Concepts and Technologies (MBENCT)}, journal = {Machine Building and Energy: New Concepts and Technologies (MBENCT)}, editor = {Simon, Sylvio and Amirov, Fariz and Namazov, Subhan}, publisher = {Trans Tech Publication Ltd.}, address = {Baech}, isbn = {978-0364-0034-1}, pages = {59 -- 64}, abstract = {The article is devoted to the study of the technological process of water jet cutting of cylindrical parts on CNC machines. The results of experimental data on determining the accuracy of dimensional deviation, surface roughness, and taper of cylindrical parts depending on the circular milling of a water jet during water jet cutting are presented.}, language = {en} }