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EQUIPMENT AND MATERIALS
Название Substantiation of diamond bead shapes for wire sawing machines
DOI 10.17580/em.2024.02.17
Автор Sekretov М. V., Rakhutin М. G.
Информация об авторе

National University of Science and Technology—NUST MISIS, Moscow, Russia

Sekretov М. V., Associate Professor, Candidate of Engineering Sciences, mv.sekretov@misis.ru
Rakhutin М. G., Professor, Doctor of Engineering Sciences

Реферат

The article substantiates the shapes of diamond beads for wire sawing machines and discusses the forces in the diamond beaded wire saws using the method of vertical displacement of a rotated and shifted parabola for the strength analysis of working members of a sawing machine. The proposed coefficient of change in the normal pressure force is defined as a ratio of the normal-wise distance between the initial and shifted parabolas to the maximal pressure value. Using the current values of the proposed coefficient, the cutting force is determined as function of the coordinates of a stone block being sawed. The method is developed for the vertical displacement of a rotated and shifted parabola, which allows finding the change of the cutting force versus the coordinates of a stone block being sawed at different values of the parabola chord. It is found that with respect to the criteria of strength, diamond bead entry in the cut and movement stability of the bead along the cutting line, the highest strength of the diamond beads is achieved with the beads of the barrel, two-wedge and tapered shapes, and with the cylindrical beads with ellipsoid heel.

Ключевые слова Diamond bead shape, natural stone block sawing, diamond beaded wire sawing machine, parabolic cutting path, vertical displacement method for parabola, cutting force, rotated and shifted parabola, strength analysis of diamond beads
Библиографический список

1. Pershin G. D., Karaulov G. A., Karaulov N. G. Diamond rope sawing of marble blocks. Magnitigirsk : MGTU im. G. I. Nosova, 2003. 103 p.
2. Dassanayake A. B. N., Samarakoon A. U., Chaminda S. P. et al. A review on dimension stone extraction methods. Mining. 2023. Vol. 3. pp. 516–531.
3. Konstanty J. The mechanics of sawing granite with diamond wire. The International Journal of Advanced Manufacturing Technology. 2021. Vol. 116. pp. 2591–2597.
4. Giuseppe Lucisano. Studio e sperimentazione di leghe ad elevata deformazione per applicazioni nel settore della prima lavorazione di materiali lapidei. Alma Mater Studiorum Universit di Bologna. Dottorato di ricerca in Meccanica e scienze avanzate dell’ingegneria: progetto n. 4 “Meccanica dei materiali e processi tecnologici”. 2012. 68 p. DOI: 10.6092/unibo/amsdottorato/4839
5. Pershin G. D., Karaulov N. G., Ulyakov M. S. Selection of high-strength dimension stone cutting method, considering natural jointing. Journal of Mining Science. 2015. Vol. 51, No. 1. pp. 129–137.
6. Hao Wu. Wire sawing technology: A state-of-the-art review. Precision Engineering. 2016. Vol. 43. pp. 1–9.
7. Pershin G. D., Ulyakov M. S., Pshenichnaya E. G., Gabbasov B. M. Energy based diamond cutting machine performance calculation method used for facing stone extraction. Vestnik of Nosov Magnitogorsk State Technical University. 2016. Vol. 14, No. 2. pp. 18–24.
8. Pershin G. D., Ulyakov M. S. Analysis of the effect of wire saw operation mode on stone cutting cost. Journal of Mining Science. 2014. Vol. 50, No. 2. pp. 310–318.
9. Pavlov Yu. A., Svetlyakov A. V., Motorny I. N. Decorative stone industry: Global situation and prospects in Russia. MIAB. 2022. No. 1. pp. 162–178.
10. Gomes D., Araujo A., Marques R., Patricio J., Lopez V., et al. Damage and failure evaluation of diamond wire for multi-wire sawing of hard stone blocks through modelling and numerical simulation. MATEC Web Conferences. 2021. Vol. 349. ID 04001.
11. Denkena B., Bergmann B., Rahner B.-H. A novel tool monitoring approach for diamond wire sawing. Production Engineering. 2022. Vol. 16. pp. 561–568.
12. Lan Zhang, Cong Ru, Liquan Wang, Zhengbin Zhu, Chengqiang Zhao. Analysis of impact characteristics of diamond-beaded rope and its influence on cutting efficiency and life. Journal of Physics Conference Series. 2019. Vol. 1187, Iss. 3. ID 032067.
13. Huiping Liang, Jiahao Feng, Jianwei Liu, Shuai Zhang, Guanghua Mao. Analysis of adaptive adjustment mechanism for diamond beaded rope of wire saw. Science of Advanced Materials. 2022. Vol. 14, No. 11. pp. 1756–1769.
14. Tengyun Liu, Peiqi Ge, Wenbo Bi, Yufei Gao. A new method of determining the slicing parameters for fixed diamond wire saw. Materials Science in Semiconductor Processing. 2020. Vol. 120. ID 105252.
15. Rasti A., Adarmanabadi H. R., Sahlabadi M. R. Effects of controllable and uncontrollable parameters on diamond wire cutting performance using statistical analysis: A case study. Rudarsko-geološko-naftni zbornik. 2021. Vol. 36, No. 4. pp. 21–32.
16. Mengguang Fu, Peng Zhang, Fei Wang. Modal analysis and experimental investigation into vibration of the diamond-beaded rope based on lumped mass. Journal of Low Frequency Noise Vibration and Active Control. 2022. Vol. 41, Iss. 1. pp. 12–26.
17. Liu B. C., Zhang Z. P., Sun Y. H. Sawing trajectory and mechanism of diamond wire saw. Key Engineering Materials. 2004. Vol. 259-260. pp. 395–400.
18. Sung Kwon Ahn. Framework for investigating wire saw rock cutting. International Journal of Machine Tools and Manufacture. 2020. Vol. 155. ID 103581.
19. Belotserkovskiy D. L. Second-order curves on plane : Instructional guidelines. Moscow : RGU nefti i gaza im. I. M. Gubkina, 2009. 42 p.
20. Korn G., Korn T. Mathematics Reference Book for Researchers and Engineers. Moscow : Nauka, 1973. 832 p.
21. Blinova I. V., Popov I. Yu. Curves Set Parametrically and in Polar Coordinates. Teaching Aid. Saint Petersburg : Universitet ITMO, 2017. 56 p.
22. Lu-Lu Wang, Yong-Chen Pei, Hang Zhang. et al. An improved normal sawing force model with spherical abrasive particles for ultrasonic assisted inner diameter sawing. Research Square. 2022. DOI: 10.21203/rs.3.rs-1969167/v1
23. Dyakonov V. P., Abramenko I. V. Mathcad 8 PRO in Mathematics, Physics and in the Internet. Moscow : Nolidzh, 2000. 512 p.
24. Sychev Yu. I., Berlin Yu. Ya. Stone Cutting, Shaping, Polishing and Finishing. Moscow : Stroyizdat, 1985. 312 p.

Полный текст статьи Substantiation of diamond bead shapes for wire sawing machines
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