APPLICATION OF ONE-FACTOR AND THREE-FACTOR ANALYSIS OF VARIANCE IN THE STUDY OF TECHNOLOGICAL PROCESSES

The article provides an overview of the applicability of statistical methods for assessing the results of production processes in various industries. The authors emphasize the effectiveness of the system approach implemented in the methods of analysis of variance, which contributes to technology improvement and allows the influence of each factor and their interaction to be studied in detail. In addition, the results of the analysis of variance can be integrated into the quality management system, which makes it possible to continuously monitor and adjust production processes, and prevent deviations in the output parameters of various parts. The paper provides an example of applying the analysis of variance in the study of technological processes of pressing the components from various materials in designing, manufacturing and controlling the quality of defense and industrial products.

1. Amosov A. A., Dubinskiy Yu. A., Kopchenova N. V. (1994). Computational methods for engineers. Moscow: Higher School, 1994. 544 p. (In Russian)

2. Anderson T. W. Statistical time series analysis. Moscow: Mir, 1976. 345 p. (In Russian)

3. Antonov A. V., Plyaskin A. V., Chepurko V. A. (2001). Optimization of the number of spare parts of equipment important for NPP safety. Quality management methods. 8: 27-30. (In Russian)

4. Bakhvalov N. S., Zhidkov N. P., Kobel'kov G. M. (2020). Numerical methods: vol. 1. Moscow: Knowledge Laboratory, 2020. 636 p. (In Russian)

5. Borovikova O. V. (2020). Application of dispersion and covariance analysis in product quality management. Bulletin of the Belarusian-Russian University. 4(69): 125-132. (In Russian)

6. Galkin V. I., Paltiyevich A. R., Shelest A. Ye. (2017). Modeling and assessment of the causes of defects in the process of isothermal stamping of ribbed panels made of aluminum alloys. Bulletin of the Moscow Aviation Institute. 24(3): 170-178. (In Russian)

7. Gianulis L. (2000). Forecast of the expected number of returns of failed products during mass production. Using the example of portable phones. Quality management methods. 11: 38-41. (In Russian)

8. Girilovich N. V., Dovgopolaya G. V. (2021). Application of statistical methods in the analysis of

9. inconsistencies of inappropriate products in the production process. Casting and metallurgy. 3: 40-45. (In Russian)

10. Kalmykov V. V., Fedorova O. S., Malyshev I. E. (2017). Study of statistical methods for analyzing technological factors in turning. Fundamental research. 6: 48-52. (In Russian)

11. Kireyev V. V., Popov D. M., Ratnikov S. A., Grachev A. V. (2012). Development of a methodology for assessing a dispersed medium of complex composition. Technique and technology of food production. 1(24): 107-112. (In Russian)

12. Kolmogorov A. N. (1941). On the logarithmically normal law of particle size distribution during crushing. Docl. USSR Academy of Sciences. 31(2): 99. (In Russian)

13. Mikhal'chuk A. S., Pichugin Yu. A. (2017). Analysis of variance errors of technological processes of microelectronics. Modeling and situational quality management of complex systems. 35-38. (In Russian)

14. Vasil'yeva A. B., Tikhonov N. A. (2002). Integral equations. 2nd ed., stereotype. Moscow: Fizmatlit, 2002. 160 p. (In Russian)

15. Venetskiy I. G., Venetskaya V. I. (1974). Basic mathematical and statistical concepts and formulas in economic analysis. Moscow: Statistics, 1974. 61 p.

16. Vesnin V. (1995). Method of planning cyclic forced tests. NCC. 3: 3-8. (In Russian)

17. Vodovozova Yu. A., Troshina L. M. (2023). Application of one-factor analysis of variance to the processing of experimental results. Science, innovation, education: current issues of the 21st century: collection of articles of the V International Scientific and Practical Conference. Penza: Science and Enlightenment (IP Gulyaev G.Yu.), 2023. pp. 10-13. (In Russian)

18. Wentzel Ye. S., Ovcharov L. A. (2000). Probability theory and its engineering applications. 2nd ed. Moscow: Higher School, 2000. 480 p. (In Russian)