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Статті в журналах з теми "A technological process"

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Автор: Grafiati
Опубліковано: 30 травня 2022
Оновлено: 31 травня 2022

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1

Misiak, Jarosław. "Technological process measurement process determining factor." Mechanik, no. 8-9 (September 2015): 728/596–728/604. http://dx.doi.org/10.17814/mechanik.2015.8-9.472.

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2

Skachkov, I. O. "Monitoring of technological process of arc robotic welding." Paton Welding Journal 2017, no. 6 (June 28, 2017): 71–74. http://dx.doi.org/10.15407/tpwj2017.06.13.

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3

Shchekin, A. V. "Algebra of Technological Process." INFORMACIONNYE TEHNOLOGII 27, no. 6 (June 9, 2021): 283–90. http://dx.doi.org/10.17587/it.27.283-290.

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Анотація:
A formal apparatus for modeling the structure of the technological process of mechanical processing based on the algebra of design and technological elements is presented. Design and technological element (manufacturing feature) is considered as a set of geometric processing area and the tool trajectory applied to it, set by a set of technological parameters. Algebra includes an addition operation (adding an element to the process structure) and a multiplication operation (merging elements). The set of processing elements forms an associative and generally noncommutative algebraic group. The possibility of using algebra for analysis and synthesis of technological process structures is shown
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4

BONDAR, Andreea Anisoara. "The Perspectives of Technological Process." Journal for Social Media Inquiry 1, no. 1 (February 4, 2019): 11–15. http://dx.doi.org/10.18662/jsmi/02.

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5

Wood, Stephen, Jon Clark, Ian McLoughlin, Howard Rose, Robin King, David Knights, and Hugh Willmott. "The Process of Technological Change." British Journal of Sociology 40, no. 2 (June 1989): 341. http://dx.doi.org/10.2307/590277.

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6

Monka, Peter, and Sergej Hloch. "Technological Process Design and Simulation." Applied Mechanics and Materials 440 (October 2013): 188–93. http://dx.doi.org/10.4028/www.scientific.net/amm.440.188.

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The article deals with the designing and simulation of technological process. Its modelling in virtual 3D environment was realized by means of selected software Sketch Up Pro. Computer aid is one of the tools which enable to visualize workshop environment, the motion of all its objects and so to predict the behaviour of individual technical or technological equipments in the real production process. The collisions and other problems can be eliminated, so consequently the quality and production efficiency of existing manufacturing process can be improved. The article is concerned to the virtual design of gears production. There are described some aspects of this technological process, suggested technical devices and the individual steps needed for successful manufacturing start-up.
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7

Hung, Shih-Chang, and Min-Fen Tu. "Technological change as chaotic process." R&D Management 41, no. 4 (July 27, 2011): 378–92. http://dx.doi.org/10.1111/j.1467-9310.2011.00641.x.

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8

Lypchuk, Vasyl, and Vasyl Dmytriv. "Management of technological process optimisation." Engineering Management in Production and Services 12, no. 3 (September 1, 2020): 103–15. http://dx.doi.org/10.2478/emj-2020-0022.

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Abstract The research aims to characterise the optimisation of a technological process depending on the main time parameters for production. The optimisation does not require to correct technical parameters of a system, but rather the organisational and managerial factors of the technological process. The workload is taken as an evaluation criterion, which factors in the probability distribution of time characteristics of computer process operations. Time characteristics that represent the performance of an operation influence the workloads of an operator and equipment, determining the productivity of the technological process. Analytical models were developed for the operational control of a production line efficiency considering the probability–statistical parameters pertaining to the performance of operations and technological equipment peculiarities. The article presents research results, which characterise the dependence of a production line efficiency on the type of equipment, and the duration of preparatory and final operations considering their probability. Under an optimal workload of the operator, the duration of the complete program changes linearly, regardless of the time required for the performance of operations by a computer without the involvement of the operator, and depending on the type of equipment. A managerial decision can be optimal under the condition that the factor of technological process efficiency (K_TP) tends to max. The developed method of analytical determination can be used to calculate the workload of both an operator and technological equipment. The calculations of the duration of a production line operation resulted in the methodology for the consideration of probability characteristics pertaining to the time distribution of the period required to perform operations, which influences the unequal efficiency of the production line. The probabilistic character of time distribution related to intervals of performed operations serves as a parameter in the management of technological process optimisation, which can be achieved using simulators of technological processes optimised in terms of their efficiency.
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9

Rebenko, V. I. "Technological basis for process control of production of poultry production." Naukovij žurnal «Tehnìka ta energetika» 11, no. 1 (January 30, 2020): 61–66. http://dx.doi.org/10.31548/machenergy2020.01.061.

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10

Kurbanova, R. V. "TECHNOLOGICAL CHARACTERISTICS OF DRESSING LAYERED ALUMINOSILICATES PROCESS BY ORGANOSILICON COMPOUNDS." Chemical Problems 17, no. 4 (2019): 526–34. http://dx.doi.org/10.32737/2221-8688-2019-4-526-534.

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11

Kollárová, M., V. Altmann, A. Jelínek, and M. Češpiva. "Effect of bio-technological agents on the composting process and gaseous emissions production from the composting process." Research in Agricultural Engineering 52, No. 4 (February 7, 2012): 145–51. http://dx.doi.org/10.17221/4891-rae.

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Анотація:
In the contribution are presented results of two experiments with utilisation of bio-technological agents Bacteriocomposter Plus and Bio-Algeen G40. The effect of these agents on the course of the composting process and emissions production from the composting was investigated. The experiment was also carried out with utilisation of biofilter. The emissions measuring was carried out by the continual method utilising the measuring apparatus INNOVA MULTIGAS (monitor 1312)MultipointSampler 1309 INNOVA. The results of the experiments have confirmed that the bio-technological agents have effect on the reduction of the emissions production from the composting activity.
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12

Rydz, Dariusz, Michał Pałęga, and Dorota Wojtyto. "Analysis of the harmfulness of a technological process." Prace Naukowe Akademii im. Jana Długosza w Częstochowie. Technika, Informatyka, Inżynieria Bezpieczeństwa 6 (2018): 471–78. http://dx.doi.org/10.16926/tiib.2018.06.34.

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13

Clark, Theodore H., and Donna B. Stoddard. "Interorganizational Business Process Redesign: Merging Technological and Process Innovation." Journal of Management Information Systems 13, no. 2 (September 1996): 9–28. http://dx.doi.org/10.1080/07421222.1996.11518121.

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14

Sahun, Andriy, and Yelуzaveta Sahun. "Technological peculiarities of aircraft loading process." Scientific Bulletin of Flight Academy. Section: Economics, Management and Law 1 (2019): 84–90. http://dx.doi.org/10.33251/2707-8620-2019-1-84-90.

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15

Mudarisov, S. G., I. I. Gabitov, Y. P. Lobachevsky, N. K. Mazitov, R. S. Rakhimov, R. R. Khamaletdinov, I. R. Rakhimov, I. M. Farkhutdinov, A. M. Mukhametdinov, and R. T. Gareev. "Modeling the technological process of tillage." Soil and Tillage Research 190 (July 2019): 70–77. http://dx.doi.org/10.1016/j.still.2018.12.004.

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16

Dean, Douglas L., James D. Lee, Richard E. Orwig, and Douglas R. Vogel. "Technological Support for Group Process Modeling." Journal of Management Information Systems 11, no. 3 (December 1994): 43–63. http://dx.doi.org/10.1080/07421222.1994.11518049.

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17

Komlatsky, V. I., T. A. Podoinitsyna, and Y. A. Kozub. "Technological process intensification trends in livestock." Journal of Physics: Conference Series 1515 (April 2020): 022009. http://dx.doi.org/10.1088/1742-6596/1515/2/022009.

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18

Danneels, Erwin. "The process of technological competence leveraging." Strategic Management Journal 28, no. 5 (2007): 511–33. http://dx.doi.org/10.1002/smj.598.

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19

Sedoglavich, Vesna. "Technological imperatives in the internationalization process." Management Research Review 35, no. 5 (April 20, 2012): 441–59. http://dx.doi.org/10.1108/01409171211222386.

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20

Koltounov, I. I. "Technological process of race rings manufacturing." Izvestiya MGTU MAMI 1, no. 2 (January 20, 2007): 169–74. http://dx.doi.org/10.17816/2074-0530-69676.

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Анотація:
The paper describes the optimization methods for technological process of race rings manufacturing. The mathematical model which enables to reveal the optimal combination of basic parameters of the product on the stage of design is developed.
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21

Kaldor, Mary. "The Weapons Succession Process." World Politics 38, no. 4 (July 1986): 577–95. http://dx.doi.org/10.2307/2010167.

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Анотація:
The weapons succession process is an analysis of military-technological change that draws upon classical economics and recent theories of bureaucratic politics. The analysis focuses on the institutional mechanisms for reconciling the demand for weapons with the supply of weapons. In wartime, the demand for weapons, determined in battle, shapes military-technological change. In peacetime, different styles of military-technological change depend on different types of supplier institutions; military-technological change is described as “baroque” in the West and “conservative” in the Soviet Union. The essay speculates about the implications of different styles of military-technological change for economic development and for arms limitation.
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22

Radnejad, Amir Bahman, and Harrie Vredenburg. "Dsruptive Technological Process Innovation Capability in a Process-oriented Industry." Academy of Management Proceedings 2017, no. 1 (August 2017): 11616. http://dx.doi.org/10.5465/ambpp.2017.11616abstract.

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23

Otte, Lukáš, Vladislav Vančura, Roman Danel, and Michal Řepka. "Creating Model for Technological Process of Inertisation / Modelování Technologického Procesu Inertizace." GeoScience Engineering 58, no. 3 (September 1, 2012): 31–38. http://dx.doi.org/10.2478/gse-2014-0038.

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Abstract Underground coal mine environment is an environment with dynamic manifestations of methane. In this environment it is quite difficult to control various technological processes occurring therein. The technological process of collapse preventing inertisation is carried out by supply of compressed nitrogen to areas at risk of spontaneous combustion of coal. Petri nets allow the modelling of parallel dynamic systems and systems with discrete time. In conjunction with the software HPSim or WinPeSim, the individual processes can be modelled and then the results processed using a spreadsheet (Excel). Based on the results of the performed simulations, it is then much easier to determine the optimal solution or decision
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24

Adjamskyi, S. V., G. A. Kononenko, and R. V. Podolskyi. "Influence of technological parameters of slm-process on porosity of metal products." Paton Welding Journal 2020, no. 10 (October 28, 2020): 13–18. http://dx.doi.org/10.37434/tpwj2020.10.03.

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25

Iagar, A., I. Sora, D. Radu, C. Panoiu, and C. Abrudean. "Technological practicability of the numericalmodeling of induction heating process in steel pieces." Revista de Metalurgia 45, no. 1 (February 28, 2009): 20–31. http://dx.doi.org/10.3989/revmetalm.0736.

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26

Kilani, Yanal. "Cyber-security effect on organizational internal process: mediating role of technological infrastructure." Problems and Perspectives in Management 18, no. 1 (April 7, 2020): 449–60. http://dx.doi.org/10.21511/ppm.18(1).2020.39.

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Анотація:
Adopting the technologies among organizations comes with the continuous worries of protection and hacking. The idea of cyber-security has become over the years the main interest of many organizations, which depend on technologies in its operations, which requires them to pay extra attention to their technological infrastructure. The current study aims at examining the influence of cyber-security forces on organizational internal operations and the role of technological infrastructure in defining and controlling the level of protection that cyber-security has on organizational internal processes. Quantitative approach was adopted, and a questionnaire was utilized to collect the data from a convenient sample of 360 software engineers, network engineers, software testers, web developers, and technical support using a structured survey questionnaire, and analyzed using SPSS version 21. The results confirmed that cyber-security motivators (data growth, technology expansion, access to required resources, operational control, and technical control) indirectly affect solid internal processes that are attributed to the consistency of technological infrastructure in an organization. The variable of ‘data growth’ appeared to be the most influential motivator on cyber-security strategies, as it scored a mean of 4.2661, which is the highest among all adopted variables and followed by the variable of ‘technical control’, which scored a mean of 4.1296. Accordingly, the study recommends that organizations should consider IT infrastructure as a main item within their risk management strategies to avoid unpredicted risks and attacks.
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27

Ovchar, R. F. "Analysis of effectiveness of process operational and technological reliability of agricultural mashines." Naukovij žurnal «Tehnìka ta energetika» 11, no. 4 (September 10, 2020): 143–52. http://dx.doi.org/10.31548/machenergy2020.04.143.

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Анотація:
The analysis suggests that to solve the contradiction between the need of ensuring the required level of serviceability of combine harvesters and capabilities of existing system and repair management of the technical state of combine harvesters at the present stage, there is a need to improve the subsystem recovery combine harvesters subject to the requirements of readiness to perform tasks on purpose and financial capacity for its maintenance. Analysis of scientific literature showed that today the unsolved problem of search and introduction of effective methods and repair combine harvesters are: development of mathematical models of the process and repair, which would allow comparative assessment of technical and economic efficiency of different modes, and repair objects combine harvesters, alternative strategies for their repair, with the aim of improving the quality of control of technical condition of the vessel in conditions of limited funding. Consideration of the process of technical maintenance of combine harvesters as a set of stages and repair objects combine harvesters allows to identify possible directions of improving the system restore. The analysis allowed to determine four basic options for its organization and to make a qualitative assessment of the benefits and disadvantages of each of these options. Reduced operating costs in the operation of combine harvesters, along with other measures of organizational and technical nature require greater automation of control of technical condition. Automation of technical state control of combine harvesters developed in the following areas: embedded systems control, on-board automated control systems, specialized control systems and universal control systems dismantled equipment. A large share of false failures in equipment, violation of industrial relations in the repair network on-board equipment, the shortage of maintenance fund requires implementation and operation. Most fully able to examine the efficiency of the process of operation of complex technical systems using analytical models. Existing approaches to the assessment of the recovery system can be classified also according to the used indicators of effectiveness: the number of constructive variables of units that are replaced (restored) for a predetermined period of operation of the control object, repair cost of the constituent elements of the functional system for a specific period at different depths of the control and completeness of the recovery, the downtime of the test object within a certain period, for comprehensive reliability, such as coefficient of readiness, coefficient of technical use.
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28

Спирин, Владимир, Vladimir Spirin, Владимир Макаров, Vladimir Makarov, Олег Халтурин, and Oleg Khalturin. "Technological potentialities assessment of globoidal honing process." Science intensive technologies in mechanical engineering 2019, no. 10 (October 29, 2019): 38–41. http://dx.doi.org/10.30987/article_5d6518cda7ab21.36783769.

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Анотація:
A procedure for the assessment of technological potentialities of involute profile globoidal gear honing is offered. The assessment of process accuracy on measurement parameters chosen ans statistical processing of the measurement results on parameters: changes in a general normal length, a radial runout is carried out. An experimental verification on the definition of processing conditions impact upon roughness of gear surfaces processed is carried out.
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29

Hollen, Rick M. A., and Frans A. J. Van den Bosch. "Enabling Technological Process Innovation through Management Innovation." Academy of Management Proceedings 2013, no. 1 (January 2013): 14669. http://dx.doi.org/10.5465/ambpp.2013.14669abstract.

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30

Zuo Tiechuan, 左铁钏, and 王旭葆 Wang Xubao. "Characteristic Short Technological Process of Laser Manufacturing." Chinese Journal of Lasers 35, no. 11 (2008): 1660–63. http://dx.doi.org/10.3788/cjl20083511.1660.

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31

Ivanova, Tanyana Nikolaevna, Pavol Bozek, Aleksandr Ivanovich Korshunov, and Vladimir Pavlovich Koretckiy. "CONTROL OF THE TECHNOLOGICAL PROCESS OF DRILLING." MM Science Journal 2020, no. 3 (October 7, 2020): 4035–39. http://dx.doi.org/10.17973/mmsj.2020_10_2020052.

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32

Czerwińska, Karolina, and Andrzej Pacana. "Analysis of the internal door technological process." Production Engineering Archives 26, no. 1 (March 1, 2020): 25–29. http://dx.doi.org/10.30657/pea.2020.26.06.

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Анотація:
AbstractDesigning and proper implementation of effective processes and providing the customer with high quality products undoubtedly determines the stable position on the market. The aim of the study was to analyse the cost and value of the technological process of doors in the context of creating added value and to identify unnecessary processes (not creating added value) in relation to which appropriate corrective actions could contribute to their elimination. Thanks to the application of remedial measures, consistent with the lean manufacturing concept, the study eliminated, among other things, operations related to unnecessary transport and storage of products, which resulted in both the reduction of time and costs of process implementation.
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33

Pich-Otero, Augusto, Sara Molina-Ortiz, Laura Delaplace, Oscar Castellani, Daniela Hozbor, Delia Sorgentini, and Anal Lodeiro. "Laboratory practical work as a technological process." Biochemical Education 26, no. 4 (October 1998): 281–85. http://dx.doi.org/10.1016/s0307-4412(98)00109-5.

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34

Pavlov, L. V., I. Y. Kondratyeva, M. Y. Puchkov, T. A. Sannikova, V. A. Machulkina, and Y. I. Avdeev. "WARE TOMATO. ORIGINAL VARIETIES (TYPICAL TECHNOLOGICAL PROCESS)." Vegetable crops of Russia, no. 3 (January 1, 2014): 56–57. http://dx.doi.org/10.18619/2072-9146-2014-3-56-57.

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35

Tisosh, J., and Dov Iddan. "Technological Implication of High Speed Forming Process." CIRP Annals 38, no. 1 (1989): 235–38. http://dx.doi.org/10.1016/s0007-8506(07)62693-6.

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36

Parraguez, Pedro, Stanko Škec, Duarte Oliveira e Carmo, and Anja Maier. "Quantifying technological change as a combinatorial process." Technological Forecasting and Social Change 151 (February 2020): 119803. http://dx.doi.org/10.1016/j.techfore.2019.119803.

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37

Lewens, Tim. "Technological Innovation as an Evolutionary Process Darwinnovation!" Studies in History and Philosophy of Science Part A 33, no. 1 (March 2002): 195–203. http://dx.doi.org/10.1016/s0039-3681(01)00038-3.

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38

Smit, Wim A. "Steering the process of military technological innovation." Defense Analysis 7, no. 4 (December 1991): 401–15. http://dx.doi.org/10.1080/07430179108405510.

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39

Brovchenko, A. D., A. P. D’achkov, N. P. Kolesnikov, and V. A. Sledchenko. "Mathematical simulation of rotor tool technological process." IOP Conference Series: Earth and Environmental Science 194 (November 15, 2018): 022006. http://dx.doi.org/10.1088/1755-1315/194/2/022006.

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40

Belousova, Anna I., and Lyudmila V. Donchenko. "Automation of technological process of obtaining pectin." E3S Web of Conferences 126 (2019): 00062. http://dx.doi.org/10.1051/e3sconf/201912600062.

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Анотація:
The article discusses the feasibility of automation of the process of obtaining liquid pectin for the production of functional beverages to ensure the desired quality and physiological properties. There were presented comparative differences between traditional operator panels and workstations. There was substantiated the expediency of control and regulation of main technological parameters of the process of extraction of pectin substances. There was described the algorithm of evaluating the results of real–time monitoring of the process.
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41

Mel'nyk, V. P. "Scientific-technological rationality and the civilizational process." Journal of Physical Studies 11, no. 1 (2007): 1–5. http://dx.doi.org/10.30970/jps.11.001.

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42

Baybulatov, Taslim, and Batyr Khamkhoev. "IMPROVING THE TECHNOLOGICAL PROCESS OF POTATO HARVESTING." Scientific Life 15, no. 3 (2020): 387–98. http://dx.doi.org/10.35679/1991-9476-2020-15-3-387-398.

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43

Dankbaar, Ben. "Commentary: Technological change as a social process." International Journal of Human Factors in Manufacturing 3, no. 1 (January 1993): 95–98. http://dx.doi.org/10.1002/hfm.4530030112.

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44

Ohara, Junji, and Yukihiro Takeuchi. "Technological History of Silicon Dry Etching Process." IEEJ Transactions on Sensors and Micromachines 131, no. 1 (2011): 14–18. http://dx.doi.org/10.1541/ieejsmas.131.14.

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45

Kyuregyan, S. G., B. M. Mamikonyan, S. V. Abgaryan, S. Sh Balasanyan, and G. S. Kyuregyan. "Metrological Assurance of Optimal Technological Process Control." Measurement Techniques 47, no. 5 (May 2004): 517–22. http://dx.doi.org/10.1023/b:mete.0000038124.90155.ee.

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46

Basalla, George. "Technological Innovation as an Evolutionary Process (review)." Technology and Culture 43, no. 2 (2002): 403–4. http://dx.doi.org/10.1353/tech.2002.0049.

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47

DE JOANNON, M., G. LANGELLA, F. BERETTA, A. CAVALIERE, and C. NOVIELLO. "Mild Combustion: Process Features and Technological Constrains." Combustion Science and Technology 153, no. 1 (April 2000): 33–50. http://dx.doi.org/10.1080/00102200008947249.

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Vlasov, Victor Aleksandrovich, Svetlana Victorovna Vlasova, and Tolokonsky Andrey Olegovich. "Current Statistical Quality Control of Technological Process." Biosciences Biotechnology Research Asia 11, no. 3 (December 30, 2014): 1757–59. http://dx.doi.org/10.13005/bbra/1581.

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49

Savel’ev, S. G., and M. N. Kondratenko. "Technological parameters determining the sintering process intensity." Izvestiya. Ferrous Metallurgy 64, no. 3 (April 9, 2021): 184–91. http://dx.doi.org/10.17073/0368-0797-2021-3-184-191.

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Анотація:
The sintering intensity is an important factor determining techno-economic efficiency of sinter production which provides the blast-furnace process with the main type of agglomerated iron ore raw materials. The charge sintering rate depends on technological parameters of the sintering process. Therefore, a systematic study of sintering technological parameters, which determine its intensity, is of practical and scientific interest. Indicators of the sintering process intensity are considered that assess it from both the mechanical and heat engineering positions. It is shown that in its purest form the sintering process intensity is characterized by the vertical agglomeration rate and combustion intensity of the sintering charge carbon. Two other indexes − the specific productivity for suitable sinter and intensity of heat output in the combustion zone – are less representative for the comparative estimation of sintering intensity, since their values depend on sintered mass strength and thermal effect of carbon combustion respectively. These factors go beyond the essence of the sintering intensity concept. Since content of fines of 5 – 0 mm at different sinter plants is not equal, representative performance comparison of sintering process is possible only taking into account the total amount of fines generated throughout the agglomerate transport path from sinter machine to blast furnace or the results of testing the agglomerate strength in a drum. A comprehensive systematic classification of techniques has been developed to intensify the sintering process based on the material-component principle using four levels of separation – objects, directions, paths and methods in which each subsequent level concretizes and develops the previous one. Its value is universality, which makes it possible to apply a systematization and separation system for almost all already known and future methods of sintering process intensification.
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Umurzakova, Shokhsanam. "IMPROVING THE PROCESS OF PREPARING THE GRAIN FOR GRINDING." International Journal of Advance Scientific Research 02, no. 04 (April 1, 2022): 11–18. http://dx.doi.org/10.37547/ijasr-02-04-03.

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Анотація:
This article discusses progressive technological methods for increasing grain production, increasing the efficiency of grain use, improving its quality, increasing the yield of premium flour, increasing productivity by installing high-performance equipment, automating production processes, and improving the preparation process. grain for grinding. Schemes of the technological process of preparing grain for grinding during threshing and reconstruction are given.
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