Analytical Modeling of Cutting Forces and Technological Parameters Interrelation when Grinding Shafts' Ends by a Grinding Wheel End on Circular Grinding Machines

Sergey Yudin; Pavel Pereverzev; Boris Reshetnikov

doi:10.4028/www.scientific.net/MSF.1037.377

Paper Titles

Experimental and Computational Method for Determining Temperature Stresses in the Welding of Structures Made of Carbon and High-Alloy Structural Steels
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Forecasting of the Possibility of Fragile Destruction Top of Cutting Blade of a Thread Forming Tool
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Experimental Studies of Deformation and Temperature Processes Mandrelling in the Deform-3D System
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Use of Digital Twins for Mathematical Modeling of Ultrasonic Cutting of Titanium Blanks
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Analytical Modeling of Cutting Forces and Technological Parameters Interrelation when Grinding Shafts' Ends by a Grinding Wheel End on Circular Grinding Machines
p.377

The Correlation of Movements in the Technological System during Grinding Precise Holes
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Model of Layer-by-Layer Cooling Trajectory in Rolled Products by TMCP
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Application of an Ultra-Compact Eddy-Current Transducer for Investigation of Defects in Welded Joints of High-Strength Steel
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Diagrams of Isothermal Decomposition of Overcooled Austenite in Maraging Steel at Uniaxial Tensile Loading
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HomeMaterials Science ForumMaterials Science Forum Vol. 1037Analytical Modeling of Cutting Forces and...

Analytical Modeling of Cutting Forces and Technological Parameters Interrelation when Grinding Shafts' Ends by a Grinding Wheel End on Circular Grinding Machines

Abstract:

Abrasive processing remains one of most demanded for hardened steels parts. Grinding of end surfaces of machines parts has become widespread due to the fact that it allows processing heat-treated surfaces more efficiently than turning and also correcting the surface geometry. This processing type is used almost mainly for finish processing operations of shafts ends, bearing rings, gears, etc. However, there is still no mathematical model for this processing type, which would satisfy most of the main technological parameters. In this article a mathematical model of the cutting force when grinding the shaft end by the grinding wheel end on circular grinding machines is obtained. Processing schemes for this grinding type are given and the calculated graph of the cutting force according to the obtained mathematical model is shown.

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Periodical:

Materials Science Forum (Volume 1037)

Pages:

377-383

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.1037.377

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Online since:

July 2021

Authors:

Sergey Yudin*, Pavel Pereverzev, Boris Reshetnikov

Keywords:

Circular Grinding Machines, Ends' Grinding by a Grinding Wheel End, Metals Grinding

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References

[1] S. Yudin, K. Smolyanoy, P. Pereverzev, Generalized cutting force model for grinding, IOP Conference Series: Materials Science and Engineering, vol. 709 (2020) 03300.

DOI: 10.1088/1757-899x/709/3/033005

Google Scholar

[2] Pereverzev, P. P. Popova, A. V. Analytical simulation of the relations between the cutting force and the basic processing parameters during internal grinding, Metalloobrabotka, No. 3 (75) (2013).

Google Scholar

[3] Pereverzev, P. P. Modelling and optimizing controlling software for automated machine production in Bulletin of South Ural State University. Series: Mechanical Engineering Industry, Issue 12 (271) (2012) 152-157.

Google Scholar

[4] Pereverzev, P. P. Modelling processing restrictions during the optimization of automated grinding cycles in Bulletin of South Ural State University. Series: Mechanical Engineering Industry. 2012. Issue 12 (271). P. 165-168.

Google Scholar

[5] Korchak, S. N. Theoretical bases of processing parameter impact on the efficiency improvement of steel part grinding: thesis for the doctoral degree in engineering. Chelyabinsk, 1973, 372 p.

Google Scholar

[6] Korchak, S. N. Theoretical bases of processing parameter impact on the efficiency improvement of steel part grinding: thesis for the doctoral degree in engineering. 05.02.08 by Korchak Stanislav Nikolayevich. Chelyabinsk, 1973, 345 p.

Google Scholar

[7] Korchak, S. N. Steel part grinding efficiency by S. N. Korchak. Moscow: Mashinostroyeniye, 1974, 297с.

Google Scholar

[8] Maslov, Ye. N. The theoretical bases of metal grinding. Moscow: Mashgiz, 1951, 190 p.

Google Scholar

[9] Lurye, G. B. Metal grinding. Moscow: Mashinostroyeniye, 1969, 176 p.

Google Scholar

[10] Tergan, V. S., Liberman, B. S. Plane grinding. Moscow: Vysshaya Shkola, 1969, 284 p.

Google Scholar

[11] Tergan, V. S., Torgan, A. V. A young grinder's reference book on plane grinding. Moscow: Vysshaya Shkola, 1975. 215 p.

Google Scholar

[12] Cutting modes for works performed on manual and semi-automated grinding and finishing machines: reference book by D. V. Ardashev [et al.]. — Chelyabinsk: ATOKSO, 2007, 384 p.

Google Scholar